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PI7C9X130 pci express to pci-x reversible bridge revision 1.2 3545 north first street, san jose, ca 95134 telephone: 1-877-pericom, (1-877-737-4266) fax: 408-435-1100 internet: http://www.pericom.com
PI7C9X130 pci express to pci-x bridge page 2 of 157 pericom semiconductor september 2007 - rev 1.2 life support policy pericom semiconductor corporation? s products are not authorized for use as criti cal components in life support devices or syste ms unless a specific written agreement pertaining to such intended use is executed between the manufactur er and an officer of psc. 1) life support devices or system are devices or systems which: a) are intended for surgical implant into the body or b) support or sustain life and w hose failure to perform, when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to re sult in a significant in jury to the user. 2) a critical component is any component of a life support device or system whose failure to perf orm can be reasonably expected to cause the failure of the life support device or system, or to affect its sa fety or effectiveness. peri com semiconductor corporation rese rves the right to make changes to its products or specificati ons at any time, without notice, in order to improve design or performance and to su pply the best possible product. pericom semiconductor does not assume any res ponsibility for use of any circuitry described other than the c ircuitry embodied in a pericom semiconductor product. the company makes no representations that circuitry described herein is free from patent infringement or other rights of third parties which may result from its use. no license is granted by implication or otherwise under any patent, patent rights or other rights, of pericom semiconductor corporation. all other trademarks are of their respective companies.
PI7C9X130 pci express to pci-x bridge page 3 of 157 pericom semiconductor september 2007 - rev 1.2 revision history date revision number description 02/24/06 0.1 first draft of PI7C9X130 data sheet 03/20/06 0.2 correct inta, b, c, d buffer type update configurati on map and registers update jtag chain order add pci/pci-x selection information 04/07/06 0.3 update on configura tion register bit definitions. 1) bit [10, 7:2] of offset 40h 2) bit [31:30] of offset 68h 3) bit [0] of offset 70h 4) bit [23:22] of offset 94h 5) bit [7:1] of offset 164h correct typo of pin clkrun_l in pin assignment and jtag section. 06/07/06 0.4 add absolute maximum ratings correct pin description: 1. req_l as gpi and gnt_l as gpo 2. clkout [8:0] as clkout [6:0] 06/19/06 0.5 correct default setting for bit [31:30] of offset 68h 03/26/2007 0.6 04/18/2007 0.7 completed non-transparent function for address 28h ? 2bh in the configuration register map ? section 7.1 corrected pin hsen (r3) in section 2.6 ? miscellaneous signals. should read tie low if hot swap is not used instead of tie high 05/02/2007 0.8 revised table 8-1 in section 8 address bit[5] corrected to equal 0 address bit[4] corrected to equal gpio[3] 05/15/2007 0.9 revised pcie base specifi cation compliancy from 1.0a to 1.1 06/08/2007 0.91 corrected pin hssw (t3) in sec tion 2.6 ? miscellaneous signals. remove ?tied high if hot swap function is not used.? 07/13/2007 1.0 corrected bit[13] offset 110h from reserved to ?advisory non-fatal error status? changed logos and some font types 08/07/2007 1.1 corrected pin #?s of gnt_l[1], gnt_l[2], gnt_[3], gnt_[4], gnt_[5] on table 14-1jtag boundary scan register definition 09/28//2007 1.2 recommendation of pull-up resistor for PI7C9X130 control signals added to section 16.3 of PI7C9X130 datasheets; pin numbers of smbclk and smbdat are corrected under section 5.2. added pcix clock detection to chapter 9, clock scheme. preface the datasheet of PI7C9X130 will be enhanced periodically when updated information is av ailable. the tec hnical information in this datasheet is subject to change without notice. th is document describes the functionalities of PI7C9X130 (pci express bridge) and provides technical in formation for designers to design their hardware using PI7C9X130.
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PI7C9X130 pci express to pci-x bridge page 5 of 157 pericom semiconductor september 2007 - rev 1.2 table of contents 1 introduction ................................................................................................................... .......................... 13 1.1 pci express features........................................................................................................... ............. 13 1.2 pci/pci-x features ............................................................................................................. ................. 14 1.3 general features ............................................................................................................... .............. 14 2 pin definition ................................................................................................................. ............................ 15 2.1 signal types ................................................................................................................... ...................... 15 2.2 pci express signals ............................................................................................................ ............... 15 2.3 pci signals .................................................................................................................... ......................... 16 2.4 mode select and strapping signals........................................................................................ 18 2.5 jtag boundary scan signals..................................................................................................... .. 18 2.6 miscellaneous signals .......................................................................................................... ........ 19 2.7 power and ground pins .......................................................................................................... ........ 20 2.8 pin assignment ................................................................................................................. ................... 20 3 mode selection and pin strapping ............................................................................................... 22 3.1 functional mode selection ...................................................................................................... .. 22 3.2 pci/pci-x selection............................................................................................................ ................. 22 3.3 pin strapping .................................................................................................................. ...................... 23 4 forward and reverse bridging ................................................................................................... .. 24 5 transparent and non-tr ansparent bridging ....................................................................... 25 5.1 transparent mode ............................................................................................................... ............. 25 5.2 non-transparent mode ........................................................................................................... ....... 26 6 pci express functi onal overview ................................................................................................ 27 6.1 tlp structure.................................................................................................................. .................... 27 6.2 virtual isochro nous oper ation ............................................................................................... 28 7 configuration registers........................................................................................................ ........... 29 7.1 configuration register map..................................................................................................... .. 29 7.2 pci express extended capa bility register map................................................................. 34 7.3 control and status register map ........................................................................................... 35 7.4 pci configuration registers for transparent bridge mode..................................... 37 7.4.1 vendor id ? of fset 00h ......................................................................................................... ...... 37 7.4.2 device id ? offset 00h......................................................................................................... ........ 37 7.4.3 command register ? offset 04h............................................................................................. 37 7.4.4 primary status register ? offset 04h.................................................................................. 38 7.4.5 revision id regist er ? offset 08h .......................................................................................... 40 7.4.6 class code regist er ? offset 08h.......................................................................................... 40 7.4.7 cache line size regi ster ? offs et 0ch................................................................................. 40 7.4.8 primary latency timer reg ister ? offset 0ch ................................................................. 40 7.4.9 header type register ? offset 0ch ...................................................................................... 41 7.4.10 reserved registers ? of fset 10h to 17h .............................................................................. 41 7.4.11 primary bus number register ? offset 18h ....................................................................... 41 7.4.12 secondary bus number register ? of fset 18h ................................................................. 41 7.4.13 subordinate bus number register ? offset 18h ............................................................. 41 7.4.14 secondary latency timer register ? offset 18h............................................................ 41 7.4.15 i/o base register ? offset 1ch................................................................................................. 41 7.4.16 i/o limit register ? offset 1ch................................................................................................ 42
PI7C9X130 pci express to pci-x bridge page 6 of 157 pericom semiconductor september 2007 - rev 1.2 7.4.17 secondary status regi ster ? offs et 1ch ........................................................................... 42 7.4.18 memory base regist er ? offset 20h ...................................................................................... 43 7.4.19 memory limit regi ster ? offset 20h ..................................................................................... 43 7.4.20 prefetchable memory base re gister ? o ffset 24h........................................................ 43 7.4.21 prefetchable memory limit re gister ? o ffset 24h....................................................... 44 7.4.22 prefetchable base upper 32-bit register ? offset 28h ............................................... 44 7.4.23 prefetchable limit upper 32-bit register ? offset 2ch.............................................. 44 7.4.24 i/o base upper 16-bit re gister ? offset 30h........................................................................ 44 7.4.25 i/o base upper 16-bit re gister ? offset 30h........................................................................ 44 7.4.26 capability pointer ? offset 34h ............................................................................................. 44 7.4.27 expansion rom base address register ? offset 38h...................................................... 45 7.4.28 interrupt line regist er ? offset 3ch.................................................................................. 45 7.4.29 interrupt pin register ? offset 3ch.................................................................................... 45 7.4.30 bridge control regist er ? offset 3ch ............................................................................... 45 7.4.31 pci data buffering contro l register ? offset 40h...................................................... 46 7.4.32 chip control 0 regi ster ? offset 40h.................................................................................. 48 7.4.33 reserved register ? offset 44h ............................................................................................. 49 7.4.34 arbiter enable regist er ? offset 48h.................................................................................. 49 7.4.35 arbiter mode register ? offset 48h..................................................................................... 50 7.4.36 arbiter priority regi ster ? offset 48h ............................................................................... 50 7.4.37 reserved registers ? offset 4ch to 64h.............................................................................. 51 7.4.38 express transmitter/receiver co ntrol register ? offset 68h................................ 51 7.4.39 upstream memory write fragment control register ? offset 68h ...................... 52 7.4.40 reserved register ? offset 6ch............................................................................................. 52 7.4.41 eeprom autoload control/status register ? of fset 70h.......................................... 52 7.4.42 hot swap control and status register ? offset 74h ................................................... 53 7.4.43 gpio data and control register ? of fset 78h................................................................. 54 7.4.44 reserved register ? offset 7ch............................................................................................. 54 7.4.45 pci-x capability id re gister ? offset 80h........................................................................... 54 7.4.46 next capability pointer register ? offset 80h ............................................................... 54 7.4.47 pci-x secondary status register ? offset 80h................................................................. 54 7.4.48 pci-x bridge status re gister ? offset 84h......................................................................... 55 7.4.49 upstream split transactio n register ? offset 88h....................................................... 56 7.4.50 downstream split transaction register ? offset 8ch................................................ 57 7.4.51 power management id register ? of fset 90h................................................................... 57 7.4.52 next capability pointer register ? offset 90h ............................................................... 57 7.4.53 power management capability register ? offset 90h ................................................. 57 7.4.54 power management control and status register ? offset 94h ............................. 58 7.4.55 pci-to-pci bridge support extension register ? offset 94h..................................... 58 7.4.56 reserved registers ? of fset 98h to 9ch.............................................................................. 59 7.4.57 capability id regist er ? offset a0h...................................................................................... 59 7.4.58 next pointer register ? offset a0h ..................................................................................... 59 7.4.59 slot number register ? offset a0h ...................................................................................... 59 7.4.60 chassis number regist er ? offset a0h ................................................................................ 59 7.4.61 secondary clock and clkrun co ntrol register ? offset a4h................................ 60 7.4.62 capability id regist er ? offset a8h...................................................................................... 61 7.4.63 next pointer register ? offset a8h ..................................................................................... 61 7.4.64 reserved register ? offset a8h ............................................................................................. 61 7.4.65 subsystem vendor id register ? offset ach..................................................................... 61 7.4.66 subsystem id register ? offset ach ..................................................................................... 61 7.4.67 pci express capability id re gister ? offset b0h ............................................................. 61 7.4.68 next capability pointer register ? offset b0h............................................................... 62 7.4.69 pci express capability reg ister ? offset b0h .................................................................. 62 7.4.70 device capability regi ster ? offset b4h............................................................................ 62
PI7C9X130 pci express to pci-x bridge page 7 of 157 pericom semiconductor september 2007 - rev 1.2 7.4.71 device control regi ster ? offs et b8h ............................................................................... 63 7.4.72 device status register ? offset b8h.................................................................................... 64 7.4.73 link capability regist er ? offset bch ................................................................................ 65 7.4.74 link control register ? offset c0h .................................................................................... 65 7.4.75 link status registe r ? offset c0h......................................................................................... 66 7.4.76 slot capability regi ster ? offs et c4h ................................................................................ 66 7.4.77 slot control register ? offset c8h .................................................................................... 67 7.4.78 slot status register ? offset c8h ........................................................................................ 67 7.4.79 xpip configuration register 0 ? offset cch ................................................................... 67 7.4.80 xpip configuration register 1 ? offset d0h.................................................................... 68 7.4.81 xpip configuration register 2 ? offset d4h.................................................................... 68 7.4.82 hot swap switch debounce counter ? offset d4h ....................................................... 68 7.4.83 capability id regist er ? offset d8h ..................................................................................... 68 7.4.84 next pointer register ? offset d8h ..................................................................................... 69 7.4.85 vpd register ? offset d8h ...................................................................................................... .. 69 7.4.86 vpd data register ? offset dch............................................................................................. 69 7.4.87 reserved register - offset e0h to ech................................................................................ 69 7.4.88 message signaled interrupts id register ? offset f0h .............................................. 69 7.4.89 next capabilities point er register ? offset f0h ........................................................... 69 7.4.90 message control register ? offset f0h ............................................................................ 70 7.4.91 message address regi ster ? offset f4h ............................................................................. 70 7.4.92 message upper address re gister ? offset f8h ............................................................... 70 7.4.93 message data register ? offset fch ................................................................................... 70 7.4.94 advance error reporting capabili ty id register ? offset 100h ............................. 71 7.4.95 advance error reporting capability version register ? offset 100h ................. 71 7.4.96 next capability offset register ? offset 100h ............................................................... 71 7.4.97 uncorrectable error status register ? o ffset 104h .................................................. 71 7.4.98 uncorrectable error mask register ? offset 108h ..................................................... 71 7.4.99 uncorrectable error severity register ? offset 10ch.............................................. 72 7.4.100 correctable error status register ? o ffset 110h.................................................... 72 7.4.101 correctable error mask re gister ? of fset 114h....................................................... 73 7.4.102 advanced error capabilities & control register ? offset 118h........................ 73 7.4.103 header log register 1 ? offset 11ch............................................................................... 73 7.4.104 header log register 2 ? offs et 120h................................................................................ 73 7.4.105 header log register 3 ? offs et 124h................................................................................ 74 7.4.106 header log register 4 ? offs et 128h................................................................................ 74 7.4.107 secondary uncorrectable error status register ? offset 12ch...................... 74 7.4.108 secondary uncorrectable error mask register ? offset 130h.......................... 75 7.4.109 secondary uncorrectable error severity register ? offset 134h................... 75 7.4.110 secondary error capability and control register ? offset 138h .................... 76 7.4.111 secondary header log registe r ? offset 13 ch ? 148h .............................................. 76 7.4.112 reserved register ? offset 14ch....................................................................................... 76 7.4.113 vc capability id regis ter ? offs et 150h .......................................................................... 76 7.4.114 vc capability version reg ister ? offset 150h .............................................................. 77 7.4.115 next capability offset register ? offset 150h ........................................................... 77 7.4.116 port vc capability regi ster 1 ? offset 154h ................................................................. 77 7.4.117 port vc capability regi ster 2 ? offset 158h ................................................................. 77 7.4.118 port vc control regi ster ? offset 15ch ....................................................................... 77 7.4.119 port vc status register ? offset 15ch............................................................................ 77 7.4.120 vc0 resource capbility re gister ? of fset 160h........................................................... 78 7.4.121 vc0 resource control reg ister ? offset 164h............................................................ 78 7.4.122 vc0 resource status register ? offset 168h ................................................................ 78 7.4.123 reserved registers ? of fset 16ch to 2fch..................................................................... 78 7.4.124 extended gpio data and cont rol register ? offset 300h ..................................... 78
PI7C9X130 pci express to pci-x bridge page 8 of 157 pericom semiconductor september 2007 - rev 1.2 7.4.125 extra gpi/gpo data and control register ? offset 304h ....................................... 79 7.4.126 reserved registers ? of fset 308h to 30ch...................................................................... 79 7.4.127 replay and acknowledge latency timers ? offset 310h ........................................ 79 7.4.128 reserved registers ? of fset 314h to ffch ..................................................................... 79 7.5 pci configuration registers for non-transparent bridge mode........................... 80 7.5.1 vendor id ? of fset 00h ......................................................................................................... ...... 80 7.5.1 device id ? offset 00h......................................................................................................... ........ 80 7.5.2 primary command register ? offset 04h ........................................................................... 80 7.5.3 primary status register ? offset 04h.................................................................................. 81 7.5.4 revision id regist er ? offset 08h .......................................................................................... 82 7.5.5 class code regist er ? offset 08h.......................................................................................... 83 7.5.6 primary cache line size register ? offset 0ch ............................................................... 83 7.5.7 primary latency timer reg ister ? offset 0ch ................................................................. 83 7.5.8 primary header type register ? offset 0ch ..................................................................... 83 7.5.9 primary csr and memory 0 base address register ? offset 10h............................... 84 7.5.10 primary csr io base addr ess register ? offset 14h....................................................... 84 7.5.11 downstream io or memory 1 base address register ? offset 18h .......................... 84 7.5.12 downstream memory 2 base addres s register ? offset 1ch ..................................... 85 7.5.13 downstream memory 3 base addr ess register ? offset 20h...................................... 85 7.5.14 downstream memory 3 upper base address register ? offset 24h ........................ 86 7.5.15 reserved register ? offset 28h ............................................................................................. 86 7.5.16 subsystem id and subsystem vendor id register ? offset 2ch ................................ 86 7.5.17 reserved register ? offset 30h ............................................................................................. 86 7.5.18 capability pointer ? offset 34h ............................................................................................. 86 7.5.19 expansion rom base address register ? offset 38h...................................................... 87 7.5.20 primary interrupt line register ? offset 3ch ................................................................ 87 7.5.21 primary interrupt pin reg ister ? offset 3ch .................................................................. 87 7.5.22 primary minimum grant register ? offset 3ch ............................................................... 87 7.5.23 primary maximum latnecy timer ? offset 3ch ................................................................ 87 7.5.24 pci data buffering contro l register ? offset 40h...................................................... 88 7.5.25 chip control 0 regi ster ? offset 40h.................................................................................. 89 7.5.26 secondary command register ? offset 44h ..................................................................... 90 7.5.27 secondary status regi ster ? offs et 44h............................................................................ 91 7.5.28 arbiter enable regist er ? offset 48h.................................................................................. 92 7.5.29 arbiter mode register ? offset 48h..................................................................................... 93 7.5.30 arbiter priority regi ster ? offset 48h ............................................................................... 94 7.5.31 secondary cache line size register ? o ffset 4ch ......................................................... 94 7.5.32 secondary latency timer register ? offset 4ch ........................................................... 95 7.5.33 secondary header type register ? offset 4c ................................................................. 95 7.5.34 secondary csr and memory 0 base address register ? offset 50h......................... 95 7.5.35 secondary csr io base address register ? offset 54h................................................. 96 7.5.36 upstream io or memory 1 base address register ? offset 58h................................. 96 7.5.37 upstream memory 2 base address register ? offset 5ch ........................................... 96 7.5.38 upstream memory 3 base address register ? offset 60h ............................................ 97 7.5.39 upstream memory 3 upper base ad dress register ? offset 64h............................... 97 7.5.40 express transmitter/receiver co ntrol register ? offset 68h................................ 98 7.5.41 memory address forwarding cont rol register ? offset 68h................................. 99 7.5.42 upstream memory write fragment control register ? offset 68h ...................... 99 7.5.43 subsystem vendor id register ? offset 6ch ................................................................... 100 7.5.44 subsystem id register ? offset 6ch.................................................................................... 100 7.5.45 eeprom autoload control/status register ? offset 70h........................................ 100 7.5.46 hot swap control and status register ? offset 74h ................................................. 101 7.5.47 bridge control and status register ? o ffset 78h ...................................................... 101 7.5.48 gpio data and control register ? of fset 78h............................................................... 102
PI7C9X130 pci express to pci-x bridge page 9 of 157 pericom semiconductor september 2007 - rev 1.2 7.5.49 secondary interrupt line register ? offset 7ch ........................................................ 103 7.5.50 secondary interrupt pin register ? offset 7ch .......................................................... 103 7.5.51 secondary minimum grant re gister ? offset 7ch ....................................................... 103 7.5.52 secondary maximum latency timer ? o ffset 7ch ........................................................ 103 7.5.53 pci-x capability id re gister ? offset 80h......................................................................... 103 7.5.54 next capability pointer register ? offset 80h ............................................................. 103 7.5.55 pci-x secondary status register ? offset 80h............................................................... 104 7.5.56 pci-x bridge status re gister ? offset 84h....................................................................... 104 7.5.57 upstream split transactio n register ? offset 88h..................................................... 106 7.5.58 downstream split transaction register ? offset 8ch.............................................. 106 7.5.59 power management id register ? of fset 90h................................................................. 106 7.5.60 next capability pointer register ? offset 90h ............................................................. 106 7.5.61 power management capability register ? offset 90h ............................................... 107 7.5.62 power management control and status register ? offset 94h ........................... 107 7.5.63 pci-to-pci bridge support extension register ? offset 94h................................... 108 7.5.64 downstream memory 0 translated base register ? offset 98h............................. 108 7.5.65 downstream memory 0 setup register ? offset 9ch .................................................. 108 7.5.66 capability id regist er ? offset a0h.................................................................................... 109 7.5.67 next pointer register ? offset a0h ................................................................................... 109 7.5.68 slot number register ? offset a0h .................................................................................... 109 7.5.69 chassis number regist er ? offset a0h .............................................................................. 109 7.5.70 secondary clock and clkrun co ntrol register ? offset a4h.............................. 109 7.5.71 downstream i/o or memory 1 translated base register ? offset a8h................ 110 7.5.72 downstream i/o or memory 1 se tup register ? offset ach ..................................... 111 7.5.73 capability id regist er ? offset b0h.................................................................................... 111 7.5.74 next capability pointer register ? offset b0h............................................................. 111 7.5.75 pci express capability reg ister ? offset b0h ................................................................ 111 7.5.76 device capability regi ster ? offset b4h.......................................................................... 112 7.5.77 device control regi ster ? offs et b8h ............................................................................. 113 7.5.78 device status register ? offset b8h.................................................................................. 114 7.5.79 link capability regist er ? offset bch .............................................................................. 114 7.5.80 link control register ? offset c0h .................................................................................. 115 7.5.81 link status registe r ? offset c0h....................................................................................... 115 7.5.82 slot capability regi ster ? offs et c4h .............................................................................. 116 7.5.83 slot control register ? offset c8h .................................................................................. 116 7.5.84 slot status register ? offset c8h ...................................................................................... 117 7.5.85 xpip configuration register 0 ? offset cch ................................................................. 117 7.5.86 xpip configuration register 1 ? offset d0h.................................................................. 117 7.5.87 xpip configuration register 2 ? offset d4h.................................................................. 118 7.5.88 capability id regist er ? offset d8h ................................................................................... 118 7.5.89 next pointer register ? offset d8h ................................................................................... 118 7.5.90 vpd register ? offset d8h ...................................................................................................... 118 7.5.91 vpd data register ? offset dch........................................................................................... 118 7.5.92 upstream memory 0 translated base - offset e0h....................................................... 119 7.5.93 upstream memory 0 setup register ? offset e4h ......................................................... 119 7.5.94 upstream i/o or memory 1 translated base register ? offset e8h ...................... 119 7.5.95 upstream i/o or memory 1 setup register ? offset ech............................................ 119 7.5.96 message signaled interrupts id register ? offset f0h ............................................ 120 7.5.97 next capability pointer register ? offset f0h............................................................. 120 7.5.98 message control register ? offset f0h .......................................................................... 120 7.5.99 message address regi ster ? offset f4h ........................................................................... 121 7.5.100 message upper address re gister ? offset f8h ......................................................... 121 7.5.101 message data register ? offset fch ............................................................................. 121 7.5.102 advance error reporting capabili ty id register ? offset 100h ....................... 121
PI7C9X130 pci express to pci-x bridge page 10 of 157 pericom semiconductor september 2007 - rev 1.2 7.5.103 advance error reporting capability version register ? offset 100h ........... 121 7.5.104 next capability offset register ? offset 100h ......................................................... 122 7.5.105 uncorrectable error status register ? o ffset 104h ............................................ 122 7.5.106 uncorrectable error mask register ? offset 108h ............................................... 122 7.5.107 uncorrectable error severity register ? offset 10ch........................................ 123 7.5.108 correctable error status register ? o ffset 110h.................................................. 123 7.5.109 correctable error mask re gister ? of fset 114h..................................................... 123 7.5.110 advanced error capabilities and control register ? offset 118h................. 124 7.5.111 header log register 1 ? offset 11ch............................................................................. 124 7.5.112 header log register 2 ? offs et 120h.............................................................................. 124 7.5.113 header log register 3 ? offs et 124h.............................................................................. 124 7.5.114 header log register 4 ? offs et 128h.............................................................................. 124 7.5.115 secondary uncorrectable error status register ? offset 12ch.................... 125 7.5.116 secondary uncorrectable error mask register ? offset 130h........................ 125 7.5.117 secondary uncorrectable error severity register ? offset 134h................. 126 7.5.118 secondary error capability and control register ? offset 138h .................. 127 7.5.119 secondary header log registe r ? offset 13 ch ? 148h ............................................ 127 7.5.120 reserved register ? offset 14ch..................................................................................... 127 7.5.121 vc capability id regis ter ? offs et 150h ........................................................................ 127 7.5.122 vc capability version reg ister ? offset 150h ............................................................ 127 7.5.123 next capability offset register ? offset 150h ......................................................... 127 7.5.124 port vc capability regi ster 1 ? offset 154h ............................................................... 128 7.5.125 port vc capability regi ster 2 ? offset 158h ............................................................... 128 7.5.126 port vc control regi ster ? offset 15ch ..................................................................... 128 7.5.127 port vc status register ? offset 15ch.......................................................................... 128 7.5.128 vc0 resource capbility re gister ? of fset 160h......................................................... 128 7.5.129 vc0 resource control reg ister ? offset 164h.......................................................... 129 7.5.130 vc0 resource status register ? offset 168h .............................................................. 129 7.5.131 reserved registers ? of fset 16ch to 2fch................................................................... 129 7.5.132 extended gpio data and cont rol register ? offset 300h ................................... 129 7.5.133 extra gpi/gpo data and control register ? offset 304h ..................................... 129 7.5.134 reserved registers ? of fset 308h to 30ch.................................................................... 130 7.5.135 replay and acknowledge latency timers ? offset 310h ...................................... 130 7.5.136 reserved registers ? of fset 314h to ffch ................................................................... 130 7.6 control and status registers for non-transparent bridge mode .................... 131 7.6.1 reserved registers ? of fset 000h to 004h ........................................................................ 131 7.6.2 downstream memory 2 translated base register ? offset 008h........................... 131 7.6.3 downstream memory 2 setup register ? offset 00ch ................................................ 131 7.6.4 downstream memory 3 translated base register ? offset 010h........................... 132 7.6.5 downstream memory 3 setup register ? o ffset 014h ................................................. 132 7.6.6 downstream memory 3 upper 32-bit setup register ? offset 018h ....................... 132 7.6.7 reserved registers ? of fset 01ch to 030h........................................................................ 132 7.6.8 upstream memory 3 setup register ? offset 034h ....................................................... 133 7.6.9 upstream memory 3 upper 32-bit setup register ? offset 038h.............................. 133 7.6.10 reserved registers ? offset 3ch to 4ch ........................................................................... 133 7.6.11 lookup table offset ? offset 50h ...................................................................................... 133 7.6.12 lookup table data ? offset 054h ........................................................................................ 134 7.6.13 upstream page boundary irq 0 request register - offset 058h............................ 134 7.6.14 upstream page boundary irq 1 request register - offset 05ch ........................... 135 7.6.15 upstream page boundary irq 0 ma sk register - offset 060h................................... 135 7.6.16 upstream page boundary irq 1 ma sk register - offset 064h................................... 135 7.6.17 reserved register ? offset 068c......................................................................................... 135 7.6.18 primary clear irq regi ster - offs et 070h ........................................................................ 136 7.6.19 secondary clear irq regi ster - offset 070h .................................................................. 136
PI7C9X130 pci express to pci-x bridge page 11 of 157 pericom semiconductor september 2007 - rev 1.2 7.6.20 primary set irq register - offset 074h.............................................................................. 136 7.6.21 secondary set irq regi ster - offset 074h........................................................................ 136 7.6.22 primary clear irq mask reg ister - offs et 078h............................................................. 137 7.6.23 secondary clear irq mask re gister - offset 078h ....................................................... 137 7.6.24 primary set irq mask register - offset 07ch.................................................................. 137 7.6.25 secondary set irq mask register - offset 07ch............................................................ 137 7.6.26 reserved registers ? of fset 080h to 09ch........................................................................ 138 7.6.27 scratchpad 0 register - offset 0a0h ................................................................................. 138 7.6.28 scratchpad 1 register - offset 0a4h ................................................................................. 138 7.6.29 scratchpad 2 register - offset 0a8h ................................................................................. 138 7.6.30 scratchpad 3 register - offset 0ach................................................................................. 138 7.6.31 scratchpad 4 register - offset 0b0h ................................................................................. 139 7.6.32 scratchpad 5 register - offset 0b4h ................................................................................. 139 7.6.33 scratchpad 6 register - offset 0b8h ................................................................................. 139 7.6.34 scratchpad 7 register - offset 0bch................................................................................. 139 7.6.35 reserved registers ? of fset 0c0h to 0fch....................................................................... 139 7.6.36 lookup table registers ? offset 100h to 1fch .............................................................. 140 7.6.37 reserved registers ? of fset 200h to ffch ....................................................................... 140 8 gpio pins and sm bus address ................................................................................................... ....... 141 9 clock scheme ................................................................................................................... ....................... 142 10 interrupts ..................................................................................................................... ........................ 142 11 eeprom (i2c) interface and system management bus................................................. 144 11.1 eeprom (i2c) interface......................................................................................................... .......... 144 11.2 system manage ment bus .......................................................................................................... ... 144 12 hot plug op eration ............................................................................................................. ............ 144 13 reset scheme................................................................................................................... ..................... 145 14 ieee 1149.1 compati ble jtag co ntroller............................................................................. 146 14.1 instruction register........................................................................................................... .......... 146 14.2 bypass re gister ................................................................................................................ ................ 146 14.3 device id register ............................................................................................................. .............. 146 14.4 boundary scan register ......................................................................................................... .... 147 14.5 jtag boundary scan register order.................................................................................... 147 15 power management ............................................................................................................... .......... 152 16 electrical and timing specifi cations ................................................................................ 153 16.1 absolute maxi mum ratings....................................................................................................... 153 16.2 dc specifications .............................................................................................................. ............... 153 16.3 ac specifications .............................................................................................................. ............... 154 17 package information............................................................................................................ ......... 155 18 ordering information........................................................................................................... ........ 157
PI7C9X130 pci express to pci-x bridge page 12 of 157 pericom semiconductor september 2007 - rev 1.2 list of tables t able 14-1 jtag b oundary s can r egister d efinition .................................................................................... 147 t able 16-1 a bsolute m aximum r atings ............................................................................................................. 153 t able 16-2 dc e lectrical c haracteristics ....................................................................................................... 153 t able 16-3 pci b us t iming p arameters .............................................................................................................. 154 list of figures f igure 1-1 PI7C9X130 t opology ............................................................................................................................ 13 f igure 2-1 p in a ssignments ............................................................................................................................... ...... 20 f igure 3-1 f unctional m ode s election ................................................................................................................ 22 f igure 3-2 pci / pci-x s election ........................................................................................................................... 23 f igure 3-3 p in s trapping ............................................................................................................................... .......... 23 f igure 4-1 f orward and n on - transparent m ode .............................................................................................. 24 f igure 4-2 r everse and t ransparent m ode ........................................................................................................ 25 f igure 5-1 n on -t ransparent r egisters ............................................................................................................... 27 f igure 6-1 tlp f ormat ............................................................................................................................... ............ 27 f igure 7-1 c onfiguration r egister m ap (00 h ? ff h ) ......................................................................................... 29 f igure 7-2 pci e xpress e xtended c apability r egister m ap (100 h ? fff h ) .................................................... 34 f igure 7-3 c ontrol and s tatus r egister (csr) m ap (000 h ? fff h ) ................................................................ 35 f igure 8-1 sm b us d evice id s trapping .............................................................................................................. 141 f igure 10-1 pci e i nterrupt m essages to pci i nterrupts m apping in r everse b ridge m ode ..................... 143 f igure 10-2 pci i nterrupts to pci e i nterrupt m essages m apping in f orward b ridge m ode .................... 143 f igure 14-1 i nstruction r egister c odes ............................................................................................................ 146 f igure 14-2 jtag d evice id r egister ................................................................................................................. 147 f igure 16-1 pci s ignal t iming c onditions ......................................................................................................... 155 f igure 17-1 t op v iew d rawing ............................................................................................................................. 155 f igure 17-2 b ottom v iew d rawing ...................................................................................................................... 156 f igure 17-3 p ackage o utline d rawing ............................................................................................................... 157
PI7C9X130 pci express to pci-x bridge page 13 of 157 pericom semiconductor september 2007 - rev 1.2 1 introduction PI7C9X130 is a pcie-to-pci/pci-x bridge. PI7C9X130 is compliant with the pci express base specification, revision 1.1, the pci express card electromechnical specification , revision 1.1, the pci local bus specification, revision 3.0 and pci express to pci/pci-x bridge specification , revision 1.0. PI7C9X130 supports transparent and non-transparent mode of operations. also, PI7C9X130 supports forward and reverse bridging. in forward bridge mode, PI7C9X130 has an x4 pci express upstream port and a 64-bit pci/pci-x downstream port. the 64-bit pci-x downstream port is 133mhz capable (see figure 1-1). in reverse bridge mode, PI7C9X130 has a 64-bit pci-x upstream port and an x4 pci express downstream port. PI7C9X130 configuration registers are backward compatible with existing pci bridge software and firmware. no modification of pci bridge soft ware and firmware is needed for the original operation. figure 1-1 PI7C9X130 topology x4 pci express link pci-x 64-bit, 133mhz bus rx tx 1.1 pci express features ? compliant with pci express base specification, revision 1.1 ? compliant with pci express card electromechnical specification, revision 1.1 ? compliant with pci express to pci/pci-x bridge specification, revision 1.0 ? physical layer interface (x4 link with 2.5gb/s data rate) ? lane polarity toggle ? virtual isochronous support (upstream tc1-7 generation, downstream tc1-7 mapping) ? aspm support ? beacon support ? crc (16-bit), lcrc (32-bit) ? ecrc and advanced error reporting ? prbs (pseudo random bit sequencing) generator/checker for chip testing ? maximum payload size to 512 bytes
PI7C9X130 pci express to pci-x bridge page 14 of 157 pericom semiconductor september 2007 - rev 1.2 1.2 pci/pci-x features ? compliant with pci local bus specification, revision 3.0 ? compliant with pci-to-pci bridge architecture specification, revision 1.2 ? compliant with pci bus pm inte rface specification, revision 1.1 ? compliant with pci hot-plug specification, revision 1.1 ? compliant with pci mobile design guide, version 1.1 ? compliant with pci-x protocol addendum to the pci local bus specification, revision 2.0a ? pme support ? 3.3v pci signaling with 5v i/o tolerance ? provides two level arbitration support for six pci bus masters ? 16-bit address decode for vga ? subsystem vendor and subsystem device ids support ? pci int interrupt or msi function support 1.3 general features ? compliant with advanced configuration and po wer interface specification (acpi), revision 2.0b ? compliant with system management (sm) bus, version 2.0 ? forward bridging (pci express as primary bus, pci as secondary bus) ? reverse bridging (pci as primary bus, pci express as secondary bus) ? transparent mode support ? non-transparent mode support ? gpio support (4 bi-directional pins) ? power management (including acpi, clkrun_l, pci_pm) ? masquerade mode (pre-loadable vendor, device, and revision ids) ? eeprom (i2c) interface ? sm bus interface ? auxiliary powers (vaux, vddaux, vddcaux) support ? power consumption at about 1.5 watt in typical condition
PI7C9X130 pci express to pci-x bridge page 15 of 157 pericom semiconductor september 2007 - rev 1.2 2 pin definition 2.1 signal types type of signal description b bi-directional i input iu input with pull-up id input with pull-down iod bi-directional with open drain output od open drain output o output p power g ground ?_l? in signal name indicates active low signal 2.2 pci express signals name pin assignment type description refclkp refclkn d2, d1 i reference clock input s: connect to external 100mhz differential clock. rap ran f2, f1 i pci express data input s: differential data receiver input signals for lane a rbp rbn h2, h1 i pci express data input s: differential data receiver input signals for lane b rcp rcn k2, k1 i pci express data input s: differential data receiver input signals for lane c rdp rdn m2, m1 i pci express data input s: differential data receiver input signals for lane d tap tan e4, e3 o pci express data outputs: differential data transmitter output signals for lane a tbp tbn g4, g3 o pci express data outputs: differential data transmitter output signals for lane b tcp tcn j4, j3 o pci express data outputs: differential data transmitter output signals for lane c tdp tdn l4, l3 o pci express data outputs: differential data transmitter output signals for lane d rref h4 i resistor reference: it is used to connect an external resistor (2.4k ohm +/- 1%) to vss to provide a re ference current for the driver and equalization circuit. perst_l p1 i pci express fundamental reset: PI7C9X130 uses this reset to initialize the internal state machines.
PI7C9X130 pci express to pci-x bridge page 16 of 157 pericom semiconductor september 2007 - rev 1.2 2.3 pci signals name pin assignment type description ad [31:0] d5, a6, b6, c6, d6, a7, b7, c7, a8, b8, c8, d8, a9, b9, c9, d9, g16, g15, g14, g13, h16, h15, h14, h13, j15, j14, j13, k16, k15, k14, k13, l16 b address / data: multiplexed address and da ta bus. address phase is aligned with first clock of frame_l assertion. data phase is aligned with irdy_l or trdy_l assertion. da ta is transferred on rising edges of fbclkin when both irdy_l and trdy_l are asserted. during bus idle (both frame_l and irdy_l are de-asserted), PI7C9X130 drives ad [31:0] to a valid logic level when arbiter is parking to PI7C9X130 on pci bus. ad [63:32] n11, p11, r11, t11, n12, p12, r12, t12, r13, t13, p14, r14, t14, t15, r15, r16, d16, c15, c16, b16, b15, a15, c14, b14, c13, b13, a13, d12, c12, b12, a12, d11 b upper 32-bit address / data: multiplexed address and data bus. address phase is aligned with first clock of frame_l assertion. data phase is aligned with irdy_l or trdy_ l assertion. data is transferred on rising edges of fbclkin when both irdy_l and trdy_l are asserted. during bus idle (both frame_l and irdy_l are de- asserted), PI7C9X130 drives ad [63:32] to a valid logic level when arbiter is parking to PI7C9X130 on pci bus. cbe [3:0] d7, a10, f13, j16 b command / byte enables (active low): multiplexed command at address phase and byte enable at data phase. during address phase, the initiator drives commands on cbe [3:0] signals to start the transaction. if the command is a write transacti on, the initiator will drive the byte enables during data phase. otherwise, the target will drive the byte enables during data phase. during bus idle, PI7C9X130 drives cbe [3:0] signals to a valid logic level when arbiter is parking to PI7C9X130 on pci bus. cbe [7:4] p13, p15, a14, c11 b upper 4-bit command / byte enables (active low): multiplexed command at address phase and byte en able at data phase. during address phase, the initiator drives commands on cbe [3:0] signals to start the transaction. if the command is a writ e transaction, the initiator will drive the byte enables during data phase. otherwise, the target will drive the byte enables during data phase. during bus idle, PI7C9X130 drives cbe [7:4] signals to a valid logic level when arbiter is parking to PI7C9X130 on pci bus. par f14 b parity bit: parity bit is an even parity (i.e. even number of 1?s), which generates based on the values of ad [31:0], cbe [3:0]. if PI7C9X130 is an initiator with a write transacti on, PI7C9X130 will tri-state par. if PI7C9X130 is a target and a write transaction, PI7C9X130 will drive par one clock after the address or da ta phase. if PI7C9X130 is a target and a read transaction, PI7C9X130 will drive par one clock after the address phase and tri-state par during data phases. par is tri-stated one cycle after the ad lines are tri-stated. during bus idle, PI7C9X130 drives par to a valid logic level wh en arbiter is parking to PI7C9X130 on pci bus. par64 d15 b parity bit for upper 32-bit: parity bit is an even parity (i.e. even number of 1?s), which generates based on the values of ad [63:32], cbe [7:4]. if PI7C9X130 is an in itiator with a write transaction, PI7C9X130 will tri-state par64. if PI7C9X130 is a target and a write transaction, PI7C9X130 will drive par 64 one clock after the address or data phase. if PI7C9X130 is a target and a read transaction, PI7C9X130 will drive par64 one clock after the address phase and tri-state par64 during data phases. par64 is tri-st ated one cycle after the ad lines are tri-stated. during bus idle, PI7C9X130 drives par64 to a valid logic level when arbiter is parking to PI7C9X130 on pci bus.
PI7C9X130 pci express to pci-x bridge page 17 of 157 pericom semiconductor september 2007 - rev 1.2 name pin assignment type description frame_l b10 b frame (active low): driven by the initiato r of a transaction to indicate the beginning and duration an access. the de-assertion of frame_l indicates the final data phase signaled by the initiator in burst transfers. before being tri-stat ed, it is driven to a de-asserted state for one cycle. irdy_l c10 b irdy (active low): driven by the initiato r of a transaction to indicate its ability to complete current data phase on the primary side. once asserted in a data phase, it is not de-asserted until the end of the data phase. before tri-stated, it is driven to a de-asserted state for one cycle. trdy_l d10 b trdy (active low): driven by the target of a transaction to indicate its ability to complete current data phase on the primary side. once asserted in a data phase, it is not de-asserted until the end of the data phase. before tri-stated, it is driven to a de-asserted state for one cycle. devsel_l a11 b device select (active low): asserted by the target indicating that the device is accepting the transaction. as a master, PI7C9X130 waits for the assertion of this signal within 5 cycles of frame_l assertion; otherwise, terminate with master abort. before tri-stated, it is driven to a de-asserted state for one cycle. stop_l b11 b stop (active low): asserted by the target indicating that the target is requesting the initiator to stop th e current transaction. before tri- stated, it is driven to a de-asserted state for one cycle. lock_l e13 b lock (active low): asserted by the initiator for multiple transactions to complete. PI7C9X130 does not support any upstream lock transaction. idsel m13 i initialization device select: used as a chip select line for type 0 configuration access to bri dge?s configuration space. perr_l f16 b parity error (active low): asserted when a data parity error is detected for data received on the pci bus interface. before being tri- stated, it is driven to a de-asserted state for one cycle. serr_l f15 iod system error (active low): can be driven low by any device to indicate a system error condition. if serr control is enabled, PI7C9X130 will drive this pin on: address parity error posted write data par ity error on target bus master abort during posted write transaction target abort during posted write transaction posted write transaction discarded delayed write request discarded delayed read request discarded delayed transaction master timeout errors reported from pci express port (advanced error reporting) in transparent mode. this signal is an open drain buffer that requires an external pull-up resistor for proper operation. req_l [5:0] p3, n3, t2, r2, p2, r1 i request (active low): req_ls are asserted by bus master devices to request for transactions on the pci bus. the master devices de-assert req_ls for at least 2 pci clock cycles before asserting them again. if external arbiter is selected (cfn_l=1 ), req_l [0] will be the bus grant input to PI7C9X130. also, req_l [5:2] will become the gpi [3:0]. gnt_l [5:0] t5, r5, p5, n5, t4, r4 o grant (active low): PI7C9X130 asserts gnt_ls to release pci bus control to bus master devices. during idle and all gnt_ls are de- asserted and arbiter is parking to PI7C9X130, PI7C9X130 will drive ad, cbe, and par to valid logic levels . if external arbiter is selected (cfn_l=1), gnt_l [0] will be the bus request from PI7C9X130 to external arbiter. also, gnt_l [5:2] will become the gpo [3:0]. req64_l d14 b request for 64-bit transfer (active low): PI7C9X130 asserts req64_l to request for 64-bit transactions on the pci bus when PI7C9X130 is the bus master. req64_l is an input when PI7C9X130 is a target device. ack64_l e16 b acknowledge for 64-bit transfer (active low): when PI7C9X130 is a target device and drives ack64_l to signal the bus master to use 64- bit transfer. when PI7C9X130 is the bus master, ack64_l is an input.
PI7C9X130 pci express to pci-x bridge page 18 of 157 pericom semiconductor september 2007 - rev 1.2 name pin assignment type description clkout [6:0] n10, t9, r9, p9, n9, t8, r8 o pci clock outputs: pci clock outputs are derived from the clkin and provide clocking signals to external pci devices. reset_l n7 b reset_l (active low): when reset_l active, all pci signals should be asynchronously tri-stated. inta_l intb_l intc_l intd_l p4 r6 t10 n15 iod interrupt: signals are asserted to request an interrupt. after asserted, it can be cleared by the device driver. inta_l, intb_l, intc_l, intd_l signals are inputs and asynchronous to the clock in the forward mode. in reverse mode, inta_l, intb_l, intc_l, and intd_l are open drain buffers for sending interrupt s to the host interrupt controller. fbclkin b4 i feedback clock input: it connects to one of the clkout [6:0] output signals and provides intern al clocking to PI7C9X130 pci bus interface. clkin / m66en t6 i pci clock input: pci clock input signal connects to an external clock source. the pci clock outputs clkout [6:0] pins are derived from clkin input. m66en input: it is driven high or low to enable the internal clock generator to provide clock outputs to clkout[6:0] pins. 2.4 mode select and strapping signals name pin assignment type description tm2 p16 i mode select 2: tm2 is a strapping pin. when tm2 is strapped low for normal operations and strapped high for testing functions. see table 3-1 for mode selection and 3-2 fo r strapping control for details. tm1 a3 i mode select 1: mode selection pin to sel ect eeprom or sm bus. tm1=0 for eeprom (i2c) support and tm1=1 for sm bus support. tm1 is also a strapping pin. see table 3-1 mode selection and 3-2 for strapping control. tm0 a2 i mode select 0: mode selection pin to select transparent or non- transparent mode. tm0=0 for transparent bridge function mode and tm0=1 for non-transparent bridge function mode. tm0 is also a strapping pin. see table 3-1 for m ode selection and 3-2 for strapping control. msk_in n16 i mask input for clkout: msk_in is used by PI7C9X130 to enable or disable the clock outputs. msk_in is also a strapping pin. when it is strapped to high, hot-plug is enabled. see table 3-2 for strapping control. revrsb n14 i forward or reverse bridging pin: revrsb pin controls the forward (revrsb=0) or reverse (revrsb=1) bridge mode of PI7C9X130. this pin is also a strapping pin. see table 3-1 for mode selection. cfn_l p7 id bus central function control pin (active low): to enable the internal arbiter, cfn_l pin should be tied low. when it?s tied high, an external arbiter is required to arbitrat e the bus. in external arbiter mode, req_l [0] is re-configured to be the secondary bus grant input, and gnt_l [0] is reconfigured to be the secondary bus request output. also, req_l [5:2] and gnt_l [5:2] become gpi [3:0] and gpo [3:0] respectively if external arbiter is selected. cfn_ l has a weak internal pull-down resistor. see tabl e 3-1 for mode selection. 2.5 jtag boundary scan signals name pin assignment type description tck l13 iu test clock: tck is the test clock to synchronize the state information and data on the pci bus side of PI7C9X130 during boundary scan operation.
PI7C9X130 pci express to pci-x bridge page 19 of 157 pericom semiconductor september 2007 - rev 1.2 name pin assignment type description tms m16 iu test mode select: tms controls the state of the test access port (tap) controller. tdo m14 o test data output: tdo is the test data output and connects to the end of the jtag scan chain. tdi m15 iu test data input: tdi is the test data input and connects to the beginning of the jtag scan chain. it allows the test instructions and data to be serially shifted in to the pci side of PI7C9X130. trst_l l14 iu test reset (active low): trst_l is the test reset to initialize the test access port (tap) controller. 2.6 miscellaneous signals name pin assignment type description gpio [6:0] l15, r10, p10, r7, t7, n8, p8 b general purpose i/o data pins: the 7 general-purpose signals are programmable as either input-only or bi-directional signals by writing the gpio output enable control regist er in the configuration space. see chapter 8 for more information. smbclk / scl b5 b smbus / eeprom clock pin: when eeprom (i2c) interface is selected (tm1=0), this pin is an output of scl clock and connected to eeprom clock input. when smbus interface is selected (tm1=1), this pin is an input for the clock of smbus. smbdat / sda a5 b/iod smbus / eeprom data pin: data interface pin to eerpom or smbus. when eeprom (i2c) interf ace is selected (tm1=0), this pin is a bi-directional signal. when sm bus interface is selected (tm1=1), this pin is an open drain signal. pme_l c5 b power management event pin: power management event signal is asserted to request a change in the device or link power state. clkrun_l c4 b clock run pin (active low): the clock run signal, for mobile environment, is asserted and de-assert ed to indicate the status of the pci clock. pcixcap a4 i pci-x capability pin: PI7C9X130 can be forced to pci mode if pcixcap is tied to ground with a capacitor (0.1uf) in parallel. if pcixcap is connected to ground through a capacitor (0.1uf), pi7c9x110 will be in 133mhz pci-x m ode. if pcixcap is connected to ground through a resistor (10k ohm) with a capacitor (0.1uf) in parallel, pi7c9x110 will be in 66mhz pci-x mode. pcixup b3 o pcixcap pull-up driver: PI7C9X130 drives this pin for pci-x mode detection. dev64 e15 i control 64-bit bus width: PI7C9X130 operates with 64-bit bus when dev64=1. when dev64=0, PI7C9X130 operates with 32-bit bus. sel100 e14 i select 100mhz frequency: when sel100=1, pi7c9x110 expects to run at 100mhz clock. when sel100=0, PI7C9X130 expects to run at 133mhz.. hsen r3 i hot swap enable: PI7C9X130 supports hot swap when hsen is set to high. tie low if hot swap function is not used. hssw t3 i hot swap switch: PI7C9X130 detects hssw input to monitor the insertion or impending extraction of a board. loo n6 o led on/off: PI7C9X130 drives loo for led illumination that signals the operator to extr act the board. enum_l p6 od enum_l signal: PI7C9X130 drives enum_l to notify the system host that either a board has been freshly inserted or is about to be extracted.
PI7C9X130 pci express to pci-x bridge page 20 of 157 pericom semiconductor september 2007 - rev 1.2 2.7 power and ground pins name pin assignment type description vdda e2, j1, j2, h3 p analog voltage supply for pci express interface: connect to the 1.8v power supply. vddp g2, f3, j5, m3, n2 p digital voltage supply for pci express interface: connect to the 1.8v power supply. vddaux f4, l1 p auxiliary voltage supply for pci express interface: connect to the 1.8v power supply. vtt g1, l5 p termination supply voltage for pci express interface: connect to the 1.8v power supply. vdda_pll d3 p analog voltage supply for pll at pci interface: connect to the 1.8v power supply. vddp_pll c2 p digital voltage supply for pll at pci interface: connect to the 1.8v power supply. vddc m5, m6, m11, m12, j11, h11, e11, e10, k5, a1 p core supply voltage: connect to the 1.8v power supply. vddcaux h5 p auxiliary core supply voltage: connect to the 1.8v power supply. vd33 t1, n4, m7, m8, m9, l10, l11, m10, t16, n13, l12, k12, k11, j12, h12, g11, g12, f12, a16, d13, e12, f11, e9, e8, e7, e6, e5 p i/o supply voltage for pci interface: connect to the 3.3v power supply for pci i/o buffers. vaux b2 p auxiliary i/o supply volt age for pci interface: connect to the 3.3v power supply. vss b1, c1, c3, d4, f5, e1, g5, k3, k4, l2, n1, m4, l6, k6, l7, k7, l8, l9, k8, k9, k10, j6, j7, j8, j9, j10, h8, h9, h10, g10, f10, f9, f8, f7, f6, g9, g8, g7, g6, h7, h6 p ground: connect to ground. 2.8 pin assignment figure 2-1 pin assignments pin name pin name pin name pin name a1 vddc e1 vss j1 vdda n1 vss a2 tm0 e2 vdda j2 vdda n2 vddp a3 tm1 e3 tan j3 tcn n3 req_l[4] / gpi[2] a4 pcixcap e4 tap j4 tcp n4 vd33 a5 smbdat / sda e5 vd33 j5 vddp n5 gnt_l[2] / gpo[0] a6 ad[30] e6 vd33 j6 vss n6 loo a7 ad[26] e7 vd33 j7 vss n7 reset_l a8 ad[23] e8 vd33 j8 vss n8 gpio[1] a9 ad[19] e9 vd33 j9 vss n9 clkout[2] a10 cbe[2] e10 vddc j10 vss n10 clkout[6] a11 devsel_l e11 vddc j11 vddc n11 ad[63] a12 ad[33] e12 vd33 j12 vd33 n12 ad[59]
PI7C9X130 pci express to pci-x bridge page 21 of 157 pericom semiconductor september 2007 - rev 1.2 pin name pin name pin name pin name a13 ad[37] e13 lock_l j13 ad[5] n13 vd33 a14 cbe[5] e14 sel100 j14 ad[6] n14 revrsb a15 ad[42] e15 dev64 j15 ad[7] n15 intd_l a16 vd33 e16 ack64_l j16 cbe[0] n16 msk_in b1 vss f1 ran k1 rcn p1 perst_l b2 vaux f2 rap k2 rcp p2 req_l[1] b3 pcixup f3 vddp k3 vss p3 req_l[5] / gpi[3] b4 fbclkin f4 vddaux k4 vss p4 inta_l b5 smbclk / scl f5 vss k5 vddc p5 gnt_l[3] / gpo[1] b6 ad[29] f6 vss k6 vss p6 enum_l b7 ad[25] f7 vss k7 vss p7 cfn_l b8 ad[22] f8 vss k8 vss p8 gpio[0] b9 ad[18] f9 vss k9 vss p9 clkout[3] b10 frame_l f10 vss k10 vss p10 gpio[4] b11 stop_l f11 vd33 k11 vd33 p11 ad[62] b12 ad[34] f12 vd33 k12 vd33 p12 ad[58] b13 ad[38] f13 cbe[1] k13 ad[1] p13 cbe[7] b14 ad[40] f14 par k14 ad[2] p14 ad[53] b15 ad[43] f15 serr_l k15 ad[3] p15 cbe[6] b16 ad[44] f16 perr_l k16 ad[4] p16 tm2 c1 vss g1 vtt l1 vddaux r1 req_l[0] c2 vddp_pll g2 vddp l2 vss r2 req_l[2] / gpi[0] c3 vss g3 tbn l3 tdn r3 hsen c4 clkrun_l g4 tbp l4 tdp r4 gnt_l[0] c5 pme_l g5 vss l5 vtt r5 gnt_l[4] / gpo[2] c6 ad[28] g6 vss l6 vss r6 intb_l c7 ad[24] g7 vss l7 vss r7 gpio[3] c8 ad[21] g8 vss l8 vss r8 clkout[0] c9 ad[17] g9 vss l9 vss r9 clkout[4] c10 irdy_l g10 vss l10 vd33 r10 gpio[5] c11 cbe[4] g11 vd33 l11 vd33 r11 ad[61] c12 ad[35] g12 vd33 l12 vd33 r12 ad[57] c13 ad[39] g13 ad[12] l13 tck r13 ad[55] c14 ad[41] g14 ad[13] l14 trst_l r14 ad[52] c15 ad[46] g15 ad[14] l15 gpio[6] r15 ad[49] c16 ad[45] g16 ad[15] l16 ad[0] r16 ad[48] d1 refclkn h1 rbn m1 rdn t1 vd33 d2 refclkp h2 rbp m2 rd p t2 req_l[3] / gpi[1] d3 vdda_pll h3 vdda m3 vddp t3 hssw d4 vss h4 rref m4 vss t4 gnt_l[1] d5 ad[31] h5 vddcaux m5 vddc t5 gnt_l[5] / gpo[3] d6 ad[27] h6 vss m6 vddc t6 clkin / m66en d7 cbe[3] h7 vss m7 vd33 t7 gpio[2] d8 ad[20] h8 vss m8 vd33 t8 clkout[1] d9 ad[16] h9 vss m9 vd33 t9 clkout[5] d10 trdy_l h10 vss m10 vd33 t10 intc_l d11 ad[32] h11 vddc m11 vddc t11 ad[60] d12 ad[36] h12 vd33 m12 vddc t12 ad[56] d13 vd33 h13 ad[8] m13 idsel t13 ad[54] d14 req64_l h14 ad[9] m14 tdo t14 ad[51] d15 par64 h15 ad[10] m15 tdi t15 ad[50] d16 ad[47] h16 ad[11] m16 tms t16 vd33
PI7C9X130 pci express to pci-x bridge page 22 of 157 pericom semiconductor september 2007 - rev 1.2 3 mode selection and pin strapping 3.1 functional mode selection if tm2 is strapped to low, PI7C9X130 uses tm1, tm0, cfn_l, and revrsb pins to select different modes of operations. these four input signals are required to be stable during normal operation. one of the sixteen combinations of normal operation can be selected by setting the logic values for the four mode select pins. for example, if the logic values are low for all four (tm1, tm0, cfn_l, and revrsb) pins, the normal operation will have ee prom (i2c) support in transparent mode with internal arbiter in forward bridge mode. the designated operation with respect to the values of the tm1, tm0, cfn_l, and revrsb pins are defined on table 3-1: figure 3-1 functional mode selection tm2 strapped tm1 tm0 cfn_l revrsb functional mode 0 0 x x x eeprom (i2c) support 0 1 x x x sm bus support 0 x 0 x x transparent mode 0 x 1 x x non-transparent mode 0 x x 0 x internal arbiter 0 x x 1 x external arbiter 0 x x x 0 forward bridge mode 0 x x x 1 reverse bridge mode 3.2 pci/pci-x selection the secondary interface is capable of operating in either conventional pci mode or in pci-x mode. PI7C9X130 controls the mode and frequency for the secondary bus by utilizing a pull-up circuit connected to pcixcap. there ar e two pull-up resistors in the circuit as recommended by the pci-x addendum. the first resistor is a weak pull-up (56k ohms) whose value is selected to set the voltage of pcixcap below its low threshold when a pci-x 66mhz device is attached to the secondary bus. the second resistor is a strong pull-up, externally wired between pcixcap and pcixup. the value of the resistor (1k ohm) is selected to set the voltage of pcixcap above its high threshold when all devices on the secondary are pci-x 66mhz capable. to detect the mode and frequency of the secondary bus, pcixup is initially disabled and PI7C9X130 samples the value on pcixcap. if PI7C9X130 sees logic low on pcixcap, one or more devices on the secondary have either pulled the signal to ground (pci-x 66mhz capable) or tied it to ground (only capable of conventional pci mode). to differentiate between the two conditions, PI7C9X130 then enables pcixup to put the strong pull-up into the circuit node. if pcixcap remains at logic low, it must be tied to ground by one or more devices, and the bus is initialized to conventional pci mode. if pcixup can be pulled up, one or more devices are capable of only pci-x 66mhz op eration so the bus is initialized to pci-x 66mhz mode. if PI7C9X130 sees logic high on pcixcap, then all devices on the secondary bus are capable of pci-x 100mhz or 133mhz operation. PI7C9X130 then samples sel100 to distinguish between the 100mhz and 133mhz clock frequencies. if PI7C9X130 sees logic high on sel100, the secondary bus is initialized to pci-x 100mhz mode. if the value is low, pci-x 133mhz is initialized. these two clock frequencies allow the flexibility to support different bus loading conditions.
PI7C9X130 pci express to pci-x bridge page 23 of 157 pericom semiconductor september 2007 - rev 1.2 there is no pin for m66en for the secondary inte rface of PI7C9X130 becaus e the internal pll is bypassed in conventional pci mode. clkin is used directly, eliminating the need to distinguish between conventional pci 33mhz and 66mhz. figure 3-2 pci / pci-x selection 3.3 pin strapping if tm2 is strapped to high, PI7C9X130 uses tm1, tm0, and msk_in as strapping pins. the strapping functions are listed in table 3-2 to show the states of operations during the pci express perst_l de- assertion transition in fo rward bridge mode or pci reset_l de-a ssertion transition in reverse bridge mode. figure 3-3 pin strapping tm2 strapped tm1 strapped tm0 strapped msk_in strapped test functions 1 0 0 1 pll test 1 0 1 1 shorten initialization test with hot-plug enabled 1 1 0 1 functional loopback test 1 1 1 1 bridge test (prbs, iddq, etc.) PI7C9X130 sel100 pcixcap enable during bus capability determination 3.3 v pcixup 3.3v 3.3v 56 k ohms weak pull-up 10 k ohms high for 100 mhz low for 133 mhz pci-x 100mhz or 133mhz card 0.01uf pci card 0.01uf pci-x 66mhz card 10k ohms 0.01uf strong pull-up 1k ohms
PI7C9X130 pci express to pci-x bridge page 24 of 157 pericom semiconductor september 2007 - rev 1.2 tm2 strapped tm1 strapped tm0 strapped msk_in strapped test functions 1 0 0 0 reserved 1 0 1 0 shorten initialization test with hot-plug disabled 1 1 0 0 reserved 1 1 1 0 reserved 4 forward and reverse bridging PI7C9X130 supports forward or reverse and transparent or non-transparent combination modes of operation. for example, when PI7C9X130 is operating in forward (revrsb=0) and non-transparent bridge mode (tm0=1) shown in figure 4-1, its pci e xpress interface is connected to a root complex and its pci-x bus interface is connected to pci-x devices. another example, PI7C9X130 can be configured as a reverse (revrsb=1) and transparent (tm0=0) bridge shown in figure 4-2. the non-transparent bridge feature of PI7C9X130 allows the i/o processor to be isolated from the host processor and its memory map which avoiding memory address conflict when both host and i/o processors are needed side-by-side. pci/pci-x based systems and periph erals are ubiquitous in the i/o interconnect technology market today. it will be a tremendous effort to convert existing pci/pci-x based products to be used in pci express systems. PI7C9X130 provides a solution to bridge existing pci/pci-x based products to the latest pci express technology. figure 4-1 forward and non-transparent mode host processor gigabit ethernet system memory x4 link pci-x 64-bit, 133mhz root complex local memory i/o processor other pci express subsystems
PI7C9X130 pci express to pci-x bridge page 25 of 157 pericom semiconductor september 2007 - rev 1.2 in reverse (revrsb=1) and transparent (tm0=0) mode shown in figure 3-2, PI7C9X130 becomes a pci-to-pci express bridge that its pci-x bus interface is connected to the host chipset between and the pci express x4 link. it enables the legacy pci/pci- x host systems to provide pci express capability. PI7C9X130 provides a solution to convert existing pci/pci-x based designs to adapt quickly into pci express base platforms. existing pic/pci-x based ap plications will not have to undergo a complete re- architecture in order to interf ace to pci express technology. figure 4-2 reverse and transparent mode host processor gigabit ethernet system memory x4 link pci-x 64-bit, 133 mhz chipset 5 transparent and non-transparent bridging 5.1 transparent mode in transparent bridge mode, base class code of PI7C9X130 is set to be 06h (bridge device). the sub- class code is set to be 04h (pci-to-pci bridge). programming interface is 00h. hence, PI7C9X130 is not a subtractive decoding bridge. PI7C9X130 has type-1 configuration header if tm0 is set to 0 (transparent bridge mode). these configuration registers are the same as traditional tran sparent pci-to-pci bridge. in fact, it is backward compatible to the software that supporting traditional transparent pci-to-pci bridges. configuration registers can be accessed from several different ways. for pci express access, pci express configuration transaction is in forward bridge mode . for pci access, pci configuration cycle is mainly in reverse bridge mode. however, PI7C9X130 allows pci configuration access in forward mode as secondary bus configuration access. for i2c access, i2c bus protocol is used with eeprom selected (tm1=0). for sm bus access, sm bus protocol is used with sm bus selected (tm1=1).
PI7C9X130 pci express to pci-x bridge page 26 of 157 pericom semiconductor september 2007 - rev 1.2 5.2 non-transparent mode in non-transparent bridge mode, base class code of PI7C9X130 is set to be 06h (bridge device). the sub- class code is set to be 80h (other bridge). prog ramming interface is 00h. hence, PI7C9X130 is not a subtractive decoding bridge. PI7C9X130 has type-0 configuration header if tm0 is set to 1 (non-transparent mode). the configuration registers are similar to a traditional pci device. however, there is one set of configuration registers for the primary interface and another set of configuration registers for the secondary interface. in addition, csrs (control and status registers) are implemented to support the memory or io transfers between the primary and secondary buses. the cs rs are accessed through memory transaction access within the lowest memory range of 4k space (bit [6 4:12] are zeros). the non- transparent configuration registers can be accessed through several different ways (pci express, pci, i2c, and sm bus). for pci express and pci access, the type-0 co nfiguration transactions need to be used. for i2 c access, i2c bus protocol needs to be used throug h i2c bus interface. for sm bus acces s, sm bus protocol needs to be used through sm bus interface. the hardware pins (b5 and a5) are shared for i2c and sm bus interface. if tm1=0, pins b5 and a5 will be scl and sda for i2 c interface respectively. if tm1=1, pins b5 and a5 will be smbclk and smbdat for sm bus interface respectively. in non-transparent bridge mode, PI7C9X130 supports four or three memory bars (base address registers) and one or two io bars (base address registers) depending on selection on the primary bus. also, PI7C9X130 supports four or three memory bars (base address registers) and one or two io bars (base address registers) depending on selection on the secondary bus. offset 10h is defined to be primary csr and downstream memory 0 bar. offset 14h is defined to be primary csr and downstream io bar. offset 18h is defined to be downstream memory 1 or io bar (selectable by csr setup register). offset 1ch is defined to be downstream memory 2 bar. offset 20h and 24h are defined to be downstream memory 3 lower bar and memory 3 upper bar respectively to support 64-bit decoding. the direct offset translation of address from prim ary to secondary bus will be done by substituting the original base address at primary with the downstream translation ba se address register values and keeping the lower address bits the same to form a new address for forward the transaction to secondary bus. for downstream memory 2, it uses direct address tran slation. there is no lo okup table for downstream memory address translation. offset 50h is defined to be secondary csr and upstream memory 0 bar. offset 54h is defined to be secondary csr and upstream io bar. offset 58h is defined to be upstream memory 1 or io bar (selectable by csr setup register offset e4h). offset 1ch is defined to be upstream memory 2 bar. offset 60h and 64h are defined to be upstream memory 3 lower bar and memory 3 upper bar respectively to support 64-bit decoding. the direct offset translation of address from seco ndary to primary bus will be done by substituting the original base address at secondary with the upstr eam translation base addr ess register values and keeping the lower address bits the sa me to form a new address for forward the transaction to primary bus. for upstream memory 2, it uses lookup table address translation method which using the original base address as index to select a new address on the upstream memory 2 lookup table based on the page and window size defined.
PI7C9X130 pci express to pci-x bridge page 27 of 157 pericom semiconductor september 2007 - rev 1.2 figure 5-1 non-transparent registers non-transparent registers typical access primary csr and memory 0 bar configuration access offset 10h downstream memory 0 translated base configuration access offset 98h downstream memory 0 setup configuration access offset 9ch primary csr i/o bar configuration access offset 14h downstream i/o or memory 1 bar configuration access offset 18h downstream i/o or memroy 1 translated base configuration access offset a8h donwstream i/o or memroy 1 setup configuration access offset ach downstream memory 2 bar configuration access offset 1fh downstream memory 2 translated base lower 4k i/o or memory access offset 008h downstream memory 2 setup lower 4k i/o or memory access offset 00ch downstream memory 3 bar configuration access offset 23h downstream memory 2 setup lower 4k i/o or memory access offset 00ch downstream memory 3 bar configuration access offset 23h downstream memory 2 setup lower 4k i/o or memory access offset 00ch downstream memory 3 bar configuration access offset 23h secondary csr memory 0 bar configuration access offset 50h upstream memory 0 translated base configuration access offset e0h upstream memory 0 setup configuration access offset e4h secondary csr i/o bar configuration access offset 54h upstream i/o or memory 1 bar configuration access offset 58h upstream i/o or memory 1 translated base configuration access offset e8h upstream i/o or memory 1 setup configuration access offset ech upstream memory 2 bar configuration access offset 5fh upstream memory 2 lookup table offset lower 4k i/o or memory access offset 050h upstream memory 2 lookup table data lower 4k i/o or memory access offset 054h upstream memory 2 lookup table (64 32-bit entries) lower 4k i/o or memory access offset 100h to 1ffh upstream memory 3 bar configuration access offset 63h upstream memory 3 upper 32-bit bar configuration access offset 67h upstream memory 3 setup lower 4k i/o or memory access offset 34h upstream memory 3 upper 32-bit setup lower 4k i/o or memory access offset 38h 6 pci express functional overview 6.1 tlp structure pci express tlp (transaction layer packet) structur e is comprised of format , type, traffic class, attributes, tlp digest, tlp poison, and length of data payload. there are four tlp formats defined in PI7C9X130 based on the states of fmt [1] and fmt [0] as shown on table 6-1. figure 6-1 tlp format fmt [1] fmt [0] tlp format 0 0 3 double word, without data 0 1 4 double word, without data 1 0 3 double word, with data 1 1 4 double word, with data data payload of PI7C9X130 can range from 4 (1dw) to 256 (64dw) bytes. PI7C9X130 supports three tlp routing mechanisms. they are comprised of address, id, and implicit routings. address routing is being used for memory and io requests. id based (bus, device, function numbers) routing is being used
PI7C9X130 pci express to pci-x bridge page 28 of 157 pericom semiconductor september 2007 - rev 1.2 for configuration requests. implicit routing is bein g used for message routing. there are two message groups (baseline and advanced switching). the baseline message group contains intx interrupt signaling, power management, error signaling, locked transaction support, slot power limit support, vendor defined messages, hot-plug signaling. the other is advanced switching support message group. the advanced switching support message contains data packet and signal packet messages. advanced switching is beyond the scope of PI7C9X130 implementation. the r [2:0] values of the "type" field will determine the destination of the message to be routed. all baseline messages must use the default traffic class zero (tc0). 6.2 virtual isochronous operation this section provides a summary of virtual isochronous operation supported by PI7C9X130. virtual isochronous support is disabled by default. virtual isochronous feature can be turned on with setting bit [26] of offset 40h to one. control bits are designated for selecting which traffic class (tc1-7) to be used for upstream (pci express-to-pci ). PI7C9X130 accepts only tc0 p ackets of configuration, io, and message packets for downstream (pci express-to-pci). if configuration, io and message packets have traffic class other than tc0, PI7C9X130 will treat them as malformed packets. PI7C9X130 maps all downstream memory packets from pci express to pci transactions regardless the virtual isochronous operation is enabled or not.
PI7C9X130 pci express to pci-x bridge page 29 of 157 pericom semiconductor september 2007 - rev 1.2 7 configuration registers PI7C9X130 supports type-0 (non-transparent bridge mode) and type-1 (transparent bridge mode) configuration space headers and capa bility id of 01h (pci power ma nagement) to 10h (pci express capability structure). with pin revrsb = 0, device-port type (bit [7:4]) of capability register will be set to 7h (pci express- to-pci/pic-x bridge). when pin revrsb = 1, device- port type (bit [7:4]) of capability register will be set to 8h (pci/pci-x-to-pci express bridge). PI7C9X130 supports pci express ca pabilities register structure with capability version set to 1h (bit [3:0] of offset 02h). when pin tm0=0, PI7C9X130 will be in transparent bridge mode and the configuration registers for transparent bridge should be used. when pin tm0=1, PI7C9X130 will be in non-transparent bridge mode an d the configuration registers for non-transparent bridge should be used. 7.1 configuration register map PI7C9X130 supports capability pointer with pci-x (id=07h), pci power management (id=01h), pci bridge sub-system vendor id (id=0dh), pci express (id=10h), vital product data (id=03h), and message signaled interrupt (id=05h). hot swap (i d=06h) can be enabled by setting hsen=1. slot identification (id=04h) is off by default and can be turned on through configuration programming. figure 7-1 configuration register map (00h ? ffh) primary bus configuration access for both transparent and non-transparent mode or secondary bus configuration access for transparent mode secondary bus configuration access for non- transparent mode only transparent mode (type1) non- transparent mode (type0) eeprom (i2c) access sm bus access 01h - 00h 01h ? 00h vendor id vendor id yes 1 yes 5 03h ? 02h 03h ? 02h device id device id yes 1 yes 5 05h ? 04h 45h ? 44h command register primary command register no yes 07h ? 06h 47h ? 46h primary status register primary status register no yes 0bh ? 08h 0bh ? 08h class code and revision id class code and revision id yes 1 yes 5 0ch 4ch cacheline size register primary cacheline size register - - 0dh 4dh primary latency timer primary latency timer no yes
PI7C9X130 pci express to pci-x bridge page 30 of 157 pericom semiconductor september 2007 - rev 1.2 primary bus configuration access for both transparent and non-transparent mode or secondary bus configuration access for transparent mode secondary bus configuration access for non- transparent mode only transparent mode (type1) non- transparent mode (type0) eeprom (i2c) access sm bus access 0eh 4eh header type register header type register no yes 0fh 4fh reserved reserved - - 13h ? 10h 53h ? 50h reserved primary csr and memory 0 bar no yes 17h ? 14h 57h ? 54h reserved primary csr i/o bar no yes 18h 58h primary bus number register downstream i/o or memory 1 bar no yes 19h 59h secondary bus number register downstream i/o or memory 1 bar no yes 1ah 5ah subordinate bus number register downstream i/o or memory 1 bar no yes 1bh 5bh secondary latency timer downstream i/o or memory 1 bar no yes 1ch 5ch i/o base register downstream memory 2 bar no yes 1dh 5dh i/o limit register downstream memory 2 bar no yes 1fh ? 1eh 5fh ? 5eh secondary status register downstream memory 2 bar no yes 21h ? 20h 61h ? 60h memory base register downstream memory 3 bar no yes 23h ? 22h 63h ? 62h memory limit register downstream memory 3 bar no yes 25h ? 24h 65h ? 64h prefetchable memory base register downstream memory 3 upper 32-bit bar no yes 27h ? 26h 67h - 66h prefetchable memory limit register downstream memory 3 upper 32-bit bar no yes 2bh ? 28h 2bh ? 28h prefetchable memory base upper 32-bit register reserved no yes 2dh ? 2ch 2dh ? 2ch prefetchable memory limit upper 32-bit register subsystem vendor id yes 2 yes 5 2fh ? 2eh 2fh ? 2eh prefetchable memory limit upper 32-bit register subsystem id yes 2 yes 5 31h ? 30h 31h ? 30h i/o base upper 16-bit register reserved no yes 33h ? 32h 33h ? 32h i/o limit upper 16-bit register reserved no yes
PI7C9X130 pci express to pci-x bridge page 31 of 157 pericom semiconductor september 2007 - rev 1.2 primary bus configuration access for both transparent and non-transparent mode or secondary bus configuration access for transparent mode secondary bus configuration access for non- transparent mode only transparent mode (type1) non- transparent mode (type0) eeprom (i2c) access sm bus access 34h 34h capability pointer capability pointer no yes 37h ? 35h 37h ? 35h reserved reserved no yes 3bh ? 38h 3bh ? 38h reserved reserved no yes 3ch 7ch interrupt line primary interrupt line no yes 3dh 7dh interrupt pin primary interrupt pin no yes 3eh 7eh bridge control primary min_gnt yes 3 yes 3 3fh 7fh bridge control primary max_lat yes 3 yes 3 41h ? 40h 41h ? 40h pci data buffering control pci data buffering control yes yes 43h ? 42h 43h ? 42h chip control 0 chip control 0 yes yes 45h ? 44h 05h ? 04h reserved secondary command register no yes 47h ? 46h 07h ? 06h reserved secondary status register no yes 4bh ? 48h 4bh ? 48h arbiter mode, enable, priority arbiter mode, enable, priority yes yes 4ch 0ch reserved secondary cacheline size register no yes 4dh 0dh reserved secondary status register no yes 4eh 0eh reserved header type no yes 4fh 0fh reserved reserved - - 53h ? 50h 13h ? 10h reserved secondary csr and memory 0 bar no yes 57h ? 54h 17h ? 14h reserved secondary csr i/o bar no yes 5bh ? 58h 1bh ? 18h reserved upstream i/o or memory 1 bar no yes 5fh ? 5ch 1fh ? 1ch reserved upstream memory 2 bar no yes 63h ? 60h 23h ? 20h reserved upstream memory 3 bar no yes 67h ? 64h 27h ? 24h reserved upstream memory 3 upper 32-bit bar no yes 69h ? 68h 69h ? 68h pci express tx and rx control pci express tx and rx control yes yes 6ah 6ah reserved memory address forwarding control yes 3 yes 3 6bh 6bh reserved reserved no yes 6dh ? 6ch 6dh ? 6ch reserved subsystem d yes 2 yes 5
PI7C9X130 pci express to pci-x bridge page 32 of 157 pericom semiconductor september 2007 - rev 1.2 primary bus configuration access for both transparent and non-transparent mode or secondary bus configuration access for transparent mode secondary bus configuration access for non- transparent mode only transparent mode (type1) non- transparent mode (type0) eeprom (i2c) access sm bus access vendor id 6fh ? 6eh 6fh ? 6eh reserved subsystem id yes 2 yes 5 73h ? 70h 73h ? 70h eeprom (i2c) control and status register eeprom (i2c) control and status register no yes 77h ? 74h 77h ? 74h hot swap capability hot swap capability no yes 7bh ? 78h 7bh ? 78h gpio data and control (20 bits) reserved (12 bits) gpio data and control (20 bits) bridge control and status (10 bits) reserved (2 bits) no no no yes no no 7ch 3ch reserved secondary interrupt line no yes 7dh 3dh reserved secondary interrupt pin no yes 7eh 3eh reserved secondary min_gnt yes 3 yes 3 7fh 3fh reserved secondary max_lat yes 3 yes 3 83h ? 80h 83h ? 80h pci-x capability pci-x capability no yes 87h ? 84h 87h ? 84h pci-x bridge status pci-x bridge status no yes 8bh ? 88h 8bh ? 88h upstream split transaction upstream split transaction no yes 8fh ? 8ch 8fh ? 8ch downstream split transaction downstream split transaction no yes 93h ? 90h 93h ? 90h power management capability power management capability yes yes 97h ? 94h 97h ? 94h power management control and status power management control and status no yes 9bh ? 98h 9bh ? 98h reserved downstream memory 0 translated base no yes 9fh ? 9ch 9fh ? 9ch reserved downstream memory 0 setup yes 3 yes 3 a3h ? a0h a3h ? a0h slot id capability slot id capability no yes a7h ? a4h a7h ? a 4h pci clock and clkrun control pci clock and clkrun control yes yes abh ? a8h abh ? a8h ssid and ssvid capability downstream i/o or memory 1 translated no yes
PI7C9X130 pci express to pci-x bridge page 33 of 157 pericom semiconductor september 2007 - rev 1.2 primary bus configuration access for both transparent and non-transparent mode or secondary bus configuration access for transparent mode secondary bus configuration access for non- transparent mode only transparent mode (type1) non- transparent mode (type0) eeprom (i2c) access sm bus access base afh ? ach afh ? ach subsystem id and subsystem vendor id downstream i/o or memory 1 setup yes yes b3h ? b0h b3h ? b0h pci express capability pci express capability no yes b7h ? b4h b7h ? b4h device capability device capability yes yes bbh ? b8h bbh ? b8h device control and status device control and status no yes bfh ? bch bfh ? bch link capab ility link capability yes yes c3h ? c0h c3h ? c0h link control and status link control and status no yes c7h ? c4h c7h ? c4h slot capa bility slot capability no yes cbh ? c8h cbh ? c8h slot control and status slot control and status no yes cfh ? cch cfh ? cch xpip configuration register 0 xpip configuration register 0 yes yes d3h ? d0h d3h ? d0h xpip configuration register 1 xpip configuration register 1 yes yes d6h ? d4h d6h ? d4h xpip configuration register 2 xpip configuration register 2 yes yes d7h d7h hot swap switch debounce counter hot swap switch debounce counter yes yes dbh ? d8h dbh ? d8h vpd capability register vpd capability register no yes dfh ? dch dfh ? dch vpd data register vpd data register yes 4 yes e3h ? e0h e3h ? e0h reserved upstream memory 0 translated base no yes e7h ? e4h e7h ? e4h reserved upstream memory 0 setup yes 3 yes 3 ebh ? e8h ebh ? e8h reserved upstream i/o or memory 1 translated base no yes efh ? ech efh ? ech reserved upstream i/o or memory 1 setup yes 3 yes 3 f3h ? f0h f3h ? f0h msi capability register msi capability register no yes f7h ? f4h f7h ? f4h message address message address no yes fbh ? f8h fbh ? f8h message upper address message upper address no yes ffh ? fch ffh ? fch message data message data no yes note 1 : when masquerade is enabled, it is pre-loadable. note 2 : when both masquerade and non-transparent mode are enabled, it is pre-loadable.
PI7C9X130 pci express to pci-x bridge page 34 of 157 pericom semiconductor september 2007 - rev 1.2 note 3 : when non-transparent mode is enabled, it is pre-loadable. note 4 : the vpd data is read/write through i2c during vpd operation. note 5 : read access only. 7.2 pci express extended capability register map PI7C9X130 also supports pci expr ess extended capabilities with from 257-byte to 4096-byte space. the offset range is from 100h to fffh. the offset 100h is defined for advance error reporting (id=0001h). the offset 150h is defined for virtual channel (id=0002h). figure 7-2 pci express extended ca pability register map (100h ? fffh) primary bus configuration access for both transparent and non-transparent mode or secondary bus configuration access for transparent mode secondary bus configuration access for non- transparent mode only transparent mode (type1) non- transparent mode (type0) eeprom (i2c) access sm bus access 103h ? 100h 103h ? 100h advanced error reporting (aer) capability advanced error reporting (aer) capability no yes 5 107h ? 104h 107h ? 104h uncorrectable error status uncorrectable error status no yes 10bh ? 108h 10bh ? 108h uncorrectable error mask uncorrectable error mask no yes 10fh ? 10ch 10fh ? 10ch uncorrectable severity uncorrectable severity no yes 113h ? 110h 113h ? 110h correctable error status correctable error status no yes 117h ? 114h 117h ? 114h correctable error mask correctable error mask no yes 11bh ? 118h 11bh ? 118h aer control aer control no yes 12bh ? 11ch 12bh ? 11ch header log register header log register no yes 12fh ? 12ch 12fh ? 12ch secondary uncorrectable error status secondary uncorrectable error status no yes 133h ? 130h 133h ? 130h secondary uncorrectable error mask secondary uncorrectable error mask no yes 137h ? 134h 137h ? 134h secondary uncorrectable severity secondary uncorrectable severity no yes 13bh ? 138h 13bh ? 138h secondary aer control secondary aer control no yes 14bh ? 13ch 14bh ? 13ch secondary header log register secondary header log register no yes 14fh ? 14ch 14fh ? 14ch reserved reserved no yes 153h ? 150h 153h ? 150h vc capability vc capability no yes 157h ? 154h 157h ? 154h port vc capability 1 port vc capability 1 no yes 15bh ? 158h 15bh ? 158h port vc capability 2 port vc capability 2 no yes
PI7C9X130 pci express to pci-x bridge page 35 of 157 pericom semiconductor september 2007 - rev 1.2 primary bus configuration access for both transparent and non-transparent mode or secondary bus configuration access for transparent mode secondary bus configuration access for non- transparent mode only transparent mode (type1) non- transparent mode (type0) eeprom (i2c) access sm bus access 15fh ? 15ch 15fh ? 15ch port vc status and control port vc status and control no yes 163h ? 160h 163h ? 160h vc0 resource capability vc0 resource capability no yes 167h ? 164h 167h ? 164h vc0 resource control vc0 resource control no yes 16bh ? 168h 16bh ? 168h vc0 resource status vc0 resource status no yes 2ffh ? 170h 2ffh ? 170h reserved reserved no yes 303h ? 300h 503h ? 500h extended gpio data and control extended gpio data and control no yes 307h ? 304h 507h ? 504h extended gpi/gpo data and control extended gpi/gpo data and control no yes 30fh ? 308h 50fh ? 508h reserved reserved no no 310h 510h replay and acknowledge latency timer replay and acknowledge latency timer yes yes 4ffh ? 314h 4ffh ? 314h reserved reserved no no 503h ? 500h 303h ? 300h reserved reserved no no 504h 304h reserved reserved no no 50fh ? 505h 30fh ? 305h reserved reserved no no 510h 310h reserved reserved no no fffh ? 514h fffh ? 514h reserved reserved no no note 5 : read access only. 7.3 control and status register map figure 7-3 control and status re gister (csr) map (000h ? fffh) pci express / pci memory offset sm bus offset register name reset value eeprom (i2c) access sm bus access 007h ? 000h 207h ? 200h reserved 0 no yes 00bh ? 008h 20bh ? 208h downstream memory 2 translated base xxxx_xxxxh no yes 00fh ? 00ch 20fh ? 20ch downstream memory 2 setup 0000_0000h yes yes 013h ? 010h 213h ? 210h downstream memory 3 translated base xxxx_xxxxh no yes 017h ? 014h 217h ? 214h downstream memory 3 setup 0000_0000h yes yes
PI7C9X130 pci express to pci-x bridge page 36 of 157 pericom semiconductor september 2007 - rev 1.2 pci express / pci memory offset sm bus offset register name reset value eeprom (i2c) access sm bus access 01bh ? 018h 21bh ? 218h downstream memory 3 upper 32-bit setup 0000_0000h yes yes 02fh ? 01ch 22fh ? 21ch reserved 0 no yes 033h ? 030h 233h ? 230h reserved x no yes 037h ? 034h 237h ? 234h upstream memory 3 setup 0000_0000h yes yes 03bh ? 038h 21bh ? 218h upstream memory 3 upper 32-bit setup 0000_0000h yes yes 04fh ? 03ch 24fh ? 23ch reserved 0 no yes 050h 250h lookup table offset register xxh no yes 053h ? 051h 253h ? 251h reserved 0 no yes 057h ? 054h 257h ? 254h lookup table data register xxxx_xxxxh no yes 05bh ? 058h 25bh ? 258h upstream page boundary irq 0 0000_0000h no yes 05fh ? 05ch 25fh ? 25ch upstream page boundary irq 1 0000_0000h no yes 063h ? 060h 263h ? 260h upstream page boundary irq mask 0 ffff_ffffh no yes 067h ? 064h 267h ? 264h upstream page boundary irq mask 1 ffff_ffffh no yes 06fh ? 068h 26fh ? 268h reserved 0 no yes 071h ? 070h 271h ? 270h primary clear irq register 0000h no yes 073h ? 072h 273h ? 272h secondary clear irq register 0000h no yes 075h ? 074h 275h ? 274h primary set irq register 0000h no yes 077h ? 076h 277h ? 276h secondary set irq register 0000h no yes 079h ? 078h 279h ? 278h primary clear irq mask register ffffh no yes 07bh ? 07ah 27bh ? 27ah secondary clear irq mask register ffffh no yes 07dh ? 07ch 27dh ? 27ch primary set irq mask register ffffh no yes 07fh ? 07eh 27fh ? 27eh secondary set irq mask register ffffh no yes 09fh ? 080h 29fh ? 280h reserved 0 no yes 0a3h ? 0a0h 2a3h ? 2a0h scratc h pad 0 xxxx_xxxxh no yes 0a7h ? 0a4h 2a7h ? 2a4h scratc h pad 1 xxxx_xxxxh no yes 0abh ? 0a8h 2abh ? 2a8h scratch pad 2 xxxx_xxxxh no yes 0afh ? 0ach 2afh ? 2ach scratch pad 3 xxxx_xxxxh no yes 0b3h ? 0b0h 2b3h ? 2b0h scratch pad 4 xxxx_xxxxh no yes 0b7h ? 0b4h 2b7h ? 2b4h scratch pad 5 xxxx_xxxxh no yes 0bbh ? 0b8h 2bbh ? 2b8h sc ratch pad 6 xxxx_xxxxh no yes 0bfh ? 0bch 2bch ? 2bfh scratch pad 7 xxxx_xxxxh no yes 0ffh ? 0c0h 2ffh ? 2c0h reserved 0 no yes
PI7C9X130 pci express to pci-x bridge page 37 of 157 pericom semiconductor september 2007 - rev 1.2 pci express / pci memory offset sm bus offset register name reset value eeprom (i2c) access sm bus access 1ffh ? 100h 3ffh ? 300h upstream memory 2 lookup table 0 no yes fffh ? 200h 11ffh ? 400h reserved 0 no yes 7.4 pci configuration regis ters for transparent bridge mode the following section describes the configuration sp ace when the device is in transparent mode. the descriptions for different register type are listed as follow: register type descriptions ro read only ros read only and sticky rw read/write rwc read/write ?1? to clear rws read/write and sticky rwcs read/write ?1? to clear and sticky 7.4.1 vendor id ? offset 00h bit function type description 15:0 vendor id ro identifies pericom as the vendor of this device. returns 12d8h when read. 7.4.2 device id ? offset 00h bit function type description 31:16 device id ro identifies this device as the PI7C9X130. returns e130 when read. 7.4.3 command register ? offset 04h bit function type description 0 i/o space enable rw 0: ignore i/ o transactions on the primary interface 1: enable response to memory tr ansactions on the primary interface reset to 0 1 memory space enable rw 0: ignore memory read tran sactions on the primary interface 1: enable memory read tran sactions on the primary interface reset to 0 2 bus master enable rw 0: do not initiate memo ry or i/o transactions on the primary interface and disable response to memory and i/o tr ansactions on the secondary interface 1: enable the bridge to operate as a master on the primary interfaces for memory and i/o transactions forwarded from the secondary interface. if the primary of the reverse bridge is pci-x m ode, the bridge is allowed to initiate a split completion transaction rega rdless of the status bit. reset to 0
PI7C9X130 pci express to pci-x bridge page 38 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 3 special cycle enable ro 0: PI7C9X130 does not respond as a target to special cycle transactions, so this bit is defined as read-only and must return 0 when read reset to 0 4 memory write and invalidate enable ro 0: PI7C9X130 does not originate a me mory write and invalidate transaction. implements this bit as read-only and re turns 0 when read (unless forwarding a transaction for another master). this bit will be ignored in pci-x mode. reset to 0 5 vga palette snoop enable ro / rw this bit applies to reverse bridge only. 0: ignore vga palette access on the primary 1: enable positive decoding response to vga palette writes on the primary interface with i/o address bits ad [9 :0] equal to 3c6h, 3c8h, and 3c9h (inclusive of isa alias; ad [15:0] ar e not decoded and may be any value) reset to 0 6 parity error response enable rw 0: may ignore any parity error that is detected and take its normal action 1: this bit if set, enables the setting of master data par ity error bit in the status register when poisoned tlp received or parity error is detected and takes its normal action reset to 0 7 wait cycle control ro wait cycle control not supported reset to 0 8 serr_l enable bit rw 0: disable 1: enable PI7C9X130 in forward bridge mode to report non-fatal or fatal error message to the root complex. also, in reverse bridge mode to assert serr_l on the primary interface reset to 0 9 fast back-to-back enable ro fast back-to-back enable not supported reset to 0 10 interrupt disable ro / rw this bit applies to reverse bridge only. 0: inta_l, intb_l, intc_l, and intd_l can be asserted on pci interface 1: prevent inta_l, intb_l, intc_l, and intd_l from being asserted on pci interface reset to 0 15:11 reserved ro reset to 00000 7.4.4 primary status register ? offset 04h bit function type description 19:16 reserved ro reset to 0000 20 capability list capable ro 1: PI7C9X130 supports the capability list (offset 34h in the pointer to the data structure) reset to 1 21 66mhz capable ro this bit applies to reverse bridge only. 1: 66mhz capable reset to 0 when forward bridge or 1 when reverse bridge. 22 reserved ro reset to 0
PI7C9X130 pci express to pci-x bridge page 39 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 23 fast back-to-back capable ro this bit applies to reverse bridge only. 1: enable fast back-to-back transactions reset to 0 when forward bridge or 1 when reverse bridge in pci mode. 24 master data parity error detected rwc bit set if its parity erro r enable bit is set and either of the conditions occurs on the primary: forward bridge ? ? receives a completion marked poisoned ? poisons a write request reverse bridge ? ? detected parity error when receivi ng data or split response for read ? observes p_perr_l asserted when sending data or receiving split response for write ? receives a split completion message indicating data parity error occurred for non-posted write reset to 0 26:25 devsel_l timing (medium decode) ro these bits apply to reverse bridge only. 00: fast devsel_l decoding 01: medium devsel_l decoding 10: slow devsel_l decoding 11: reserved reset to 00 when forward bridge or 01 when reverse bridge. 27 signaled target abort rwc forward bridge ? this bit is set when PI7C9X130 completes a request using completer abort status on the primary reverse bridge ? this bit is set to indicate a target abort on the primary reset to 0 28 received target abort rwc forward bridge ? this bit is set when PI7C9X130 receives a completion with completer abort completion status on the primary reverse bridge ? this bit is set when PI7C9X130 detects a target abort on the primary reset to 0 29 received master abort rwc forward bridge ? this bit is set when PI7C9X130 r eceives a completion with unsupported request completion status on the primary reverse bridge ? this bit is set when PI7C9X130 detects a master abort on the primary 30 signaled system error rwc forward bridge ? this bit is set when PI7C9X130 sends an err_fatal or err_non_fatal message on the primary reverse bridge ? this bit is set when PI7C9X130 asserts serr_l on the primary reset to 0 31 detected parity error rwc forward bridge ? this bit is set when poisoned tlp is detected on the primary reverse bridge ? this bit is set when address or data parity error is detected on the primary reset to 0
PI7C9X130 pci express to pci-x bridge page 40 of 157 pericom semiconductor september 2007 - rev 1.2 7.4.5 revision id register ? offset 08h bit function type description 7:0 revision ro reset to 00000000 7.4.6 class code regi ster ? offset 08h bit function type description 15:8 programming interface ro subtractive decoding of pci-pci bridge not supported reset to 00000000 23:16 sub-class code ro sub-class code 00000100: pci-to-pci bridge reset to 00000100 31:24 base class code ro base class code 00000110: bridge device reset to 00000110 7.4.7 cache line size register ? offset 0ch bit function type description 1:0 reserved ro bit [1:0] not supported reset to 00 2 cache line size rw 1: cache line size = 4 double words reset to 0 3 cache line size rw 1: cache line size = 8 double words reset to 0 4 cache line size rw 1: cache line size = 16 double words reset to 0 5 cache line size rw 1: cache line size = 32 double words reset to 0 7:6 reserved ro bit [7:6] not supported reset to 00 7.4.8 primary latency timer register ? offset 0ch bit function type description 15:8 primary latency timer ro / rw 8 bits of primary latency timer in pci/pci-x forward bridge ? ro with reset to 00h reverse bridge ? rw with reset to 00h in pci mode or 40h in pci-x mode
PI7C9X130 pci express to pci-x bridge page 41 of 157 pericom semiconductor september 2007 - rev 1.2 7.4.9 header type register ? offset 0ch bit function type description 22:16 pci-to-pci bridge configuration ro pci-to-pci bridge configuration (10 ? 3fh) reset to 0000001 23 single function device ro 0: indicates single function device reset to 0 31:24 reserved ro reset to 00h 7.4.10 reserved registers ? offset 10h to 17h 7.4.11 primary bus number register ? offset 18h bit function type description 7:0 primary bus number rw reset to 00h 7.4.12 secondary bus number register ? offset 18h bit function type description 15:8 secondary bus number rw reset to 00h 7.4.13 subordinate bus number register ? offset 18h bit function type description 23:16 subordinate bus number rw reset to 00h 7.4.14 secondary latency time r register ? offset 18h bit function type description 31:24 secondary latency timer rw / ro secondary latency timer in pci / pci-x mode forward bridge ? rw with reset to 00h in pci mode or 40h in pci-x mode reverse bridge ? ro with reset to 00h 7.4.15 i/o base register ? offset 1ch bit function type description 1:0 32-bit i/o addressing support ro 01: indicates PI7C9X130 supports 32-bit i/o addressing reset to 01 3:2 reserved ro reset to 00
PI7C9X130 pci express to pci-x bridge page 42 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 7:4 i/o base rw indicates the i/o base (0000_0000h) reset to 0000 7.4.16 i/o limit register ? offset 1ch bit function type description 9:8 32-bit i/o addressing support ro 01: indicates PI7C9X130 supports 32-bit i/o addressing reset to 01 11:10 reserved ro reset to 00 15:12 i/o base rw indicates the i/o limit (0000_0fffh) reset to 0000 7.4.17 secondary status register ? offset 1ch bit function type description 20:16 reserved ro reset to 00000 21 66mhz capable ro indicates PI7C9X130 is 66mhz capable reset to 1 22 reserved ro reset to 0 23 fast back-to-back capable ro forward bridge: reset to 1 when secondary bus is in pci mode (supports fast back-to-back transactions) or reset to 0 when secondary bus is in pci-x mode (does not support fast back-to-back transactions) reverse bridge: reset to 0 (does not support fast back-to-back transactions) 24 master data parity error detected rwc this bit is set if its pa rity error enable bit is set and either of the conditions occur on the primary: forward bridge ? ? detected parity error when receivi ng data or split response for read ? observes s_perr_l asserted when sending data or receiving split response for write ? receives a split completion message indicating data parity error occurred for non-posted write reverse bridge ? ? receives a completion marked poisoned ? poisons a write request reset to 0 26:25 devsel_l timing (medium decoding) ro these bits apply to forward bridge only. 01: medium devsel_l decoding reset to 01 when forward mode or 00 when reverse mode. 27 signaled target abort rwc forward bridge ? bit is set when PI7C9X130 signals target abort reverse bridge ? bit is set when PI7C9X130 completes a request using completer abort completion status reset to 0
PI7C9X130 pci express to pci-x bridge page 43 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 28 received target abort rwc forward bridge ? bit is set when PI7C9X130 detects ta rget abort on the secondary interface reverse bridge ? bit is set when PI7C9X130 receives a completion with completer abort completion status on the secondary interface reset to 0 29 received master abort rwc forward bridge ? bit is set when PI7C9X130 detects master abort on the secondary interface reverse bridge ? bit is set when PI7C9X130 receives a completion with unsupported request completion status on the primary interface reset to 0 30 received system error rwc forward bridge ? bit is set when PI7C9X130 detects serr_l assertion on the secondary interface reverse bridge ? bit is set when PI7C9X130 receive s an err_fatal or err_non_fatal message on the secondary interface reset to 0 31 detected parity error rwc forward bridge ? bit is set when PI7C9X130 detects address or data parity error reverse bridge ? bit is set when PI7C9X130 detects poisoned tlp on secondary interface reset to 0 7.4.18 memory base register ? offset 20h bit function type description 3:0 reserved ro reset to 0000 15:4 memory base rw memory base (80000000h) reset to 800h 7.4.19 memory limit register ? offset 20h bit function type description 19:16 reserved ro reset to 0000 31:20 memory limit rw memory limit (000fffffh) reset to 000h 7.4.20 prefetchable memory ba se register ? offset 24h bit function type description 3:0 64-bit addressing support ro 0001: indicates PI7C9X130 supports 64-bit addressing reset to 0001 15:4 prefetchable memory base rw prefetchable memory base (00000000_80000000h) reset to 800h
PI7C9X130 pci express to pci-x bridge page 44 of 157 pericom semiconductor september 2007 - rev 1.2 7.4.21 prefetchable memory li mit register ? offset 24h bit function type description 19:16 64-bit addressing support ro 0001: indicates PI7C9X130 supports 64-bit addressing reset to 0001 31:20 prefetchable memory limit rw prefetchable memory limit (00000000_000fffffh) reset to 000h 7.4.22 prefetchable base upper 32 -bit register ? offset 28h bit function type description 31:0 prefetchable base upper 32-bit rw bit [63:32] of prefetchable base reset to 00000000h 7.4.23 prefetchable limit upper 32 -bit register ? offset 2ch bit function type description 31:0 prefetchable limit upper 32-bit rw bit [63:32] of prefetchable limit reset to 00000000h 7.4.24 i/o base upper 16-bit register ? offset 30h bit function type description 15:0 i/o base upper 16- bit rw bit [31:16] of i/o base reset to 0000h 7.4.25 i/o base upper 16-bit register ? offset 30h bit function type description 31:16 i/o limit upper 16- bit rw bit [31:16] of i/o limit reset to 0000h 7.4.26 capability pointer ? offset 34h bit function type description 31:8 reserved ro reset to 0 7:0 capability pointer ro capability pointer to 80h reset to 80h
PI7C9X130 pci express to pci-x bridge page 45 of 157 pericom semiconductor september 2007 - rev 1.2 7.4.27 expansion rom base addr ess register ? offset 38h bit function type description 31:0 expansion rom base address ro expansion rom not supported. reset to 00000000h 7.4.28 interrupt line register ? offset 3ch bit function type description 7:0 interrupt line rw these bits apply to reverse bridge only. for initialization code to program to tell which input of the interrupt controller the PI7C9X130?s inta_l in connected to. reset to 00000000 7.4.29 interrupt pin register ? offset 3ch bit function type description 15:8 interrupt pin ro these bits apply to reverse bridge only. designates interrupt pin inta_l, is used reset to 00h when forward mode or 01h when reverse mode. 7.4.30 bridge control register ? offset 3ch bit function type description 16 parity error response enable rw 0: ignore parity errors on the secondary 1: enable parity erro r detection on secondary forward bridge ? controls the response to uncorrectable a ddress attribute and data errors on the secondary reverse bridge ? controls the setting of the master data pa rity error bit in response to a received poisoned tlp from the secondary (pcie link) reset to 0 17 serr_l enable rw 0: disable the forwarding of serr_l to err_fatal and err_nonfatal 1: enable the forwarding of se rr_l to err_fatal and err_nonfatal reset to 0 (forward bridge) ro bit for reverse bridge 18 isa enable rw 0: forward downstream all i/o addresses in the address range defined by the i/o base and limit registers 1: forward upstream all i/o addresses in the address range defined by the i/o base and limit registers that are in the first 64kb of pci i/o address space (top 768 bytes of each 1kb block) reset to 0
PI7C9X130 pci express to pci-x bridge page 46 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 19 vga enable rw 0: do not forward vga compatible memory and i/o addresses from the primary to secondary, unless they are enabled for forwarding by the defined i/o and memory address ranges 1: forward vga compatible memory a nd i/o addresses from the primary and secondary (if the i/o enable and memory enable bits are set), independent of the isa enable bit 20 vga 16-bit decode rw 0: execute 10- bit address decodes on vga i/o accesses 1: execute 16-bit address decode on vga i/o accesses reset to 0 21 master abort mode rw 0: do not report master aborts (return ffffffffh on reads and discards data on write) 1: report master abort by signaling target abort if possible or by the assertion of serr_l (if enabled). reset to 0 22 secondary interface reset rw 0: do not force the assertion of reset_l on secondary pci bus for forward bridge, or do not generate a hot rese t on the pcie link for reverse bridge 1: force the assertion of reset_l on secondary pci bus for forward bridge, or generate a hot reset on the pcie link for reverse bridge reset to 0 23 fast back-to-back enable ro fast back-to-back not supported reset to 0 24 primary master timeout rw 0: primary discard timer counts 2 15 pci clock cycles 1: primary discard timer counts 2 10 pci clock cycles forward bridge ? bit is ro and ignored by the PI7C9X130 reset to 0 25 secondary master timeout rw 0: secondary discard timer counts 2 15 pci clock cycles 1: secondary discard timer counts 2 10 pci clock cycles reverse bridge ? bit is ro and ignored by PI7C9X130 reset to 0 26 master timeout status rwc bit is set when the discard timer expi res and a delayed comp letion is discarded at the pci interface for the forward or reverse bridge reset to 0 27 discard timer serr_l enable rw bit is set to enable to gene rate err_nonfatal or err_fatal for forward bridge, or assert p_serr_l for reverse bridge as a result of the expiration of the discard timer on the pci interface. reset to 0 31:28 reserved ro reset to 0000 7.4.31 pci data buffering contro l register ? offset 40h bit function type description 0 secondary internal arbiter?s park function rw 0: park to the last master 1: park to PI7C9X130 secondary port reset to 0 1 memory read prefetching dynamic control disable rw 0: enable memory read prefetchi ng dynamic control for pci to pcie read 1: disable memory read prefetching dynamic control for pci to pcie read reset to 0
PI7C9X130 pci express to pci-x bridge page 47 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 2 completion data prediction control rw 0: enable completion data pr ediction for pci to pcie read. 1: disable completion data prediction reset to 0 3 reserved ro reset to 0 5:4 pci read multiple prefetch mode rw these two bits are ignored in pci-x mode. 00 : one cache line prefetch if memory read multiple address is in prefetchable range at the pci interface 01 : full prefetch if address is in pref etchable range at pci interface, and the PI7C9X130 will keep remaining data afte r it disconnects the external master during burst read with read multiple command until the discard timer expires 10 : full prefetch if address is in prefetchable range at pci interface 11 : full prefetch if address is in pref etchable range at pci interface and the PI7C9X130 will keep remaining data afte r the read multiple is terminated either by an external master or by the PI7C9X130, until the discard time expires reset to 10 7:6 pci read line prefetch mode rw these two bits are ignored in pci-x mode. 00 : once cache line prefetch if memory read address is in prefetchable range at pci interface 01 : full prefetch if address is in pref etchable range at pci interface and the PI7C9X130 will keep remaining data afte r it is disconnected by an external master during burst read with read lin e command, until discard timer expires 10 : full prefetch if memory read line address is in prefetchable range at pci interface 11 : full prefetch if address is in pref etchable range at pci interface and the PI7C9X130 will keep remaining data after th e read line is terminated either by an external master or by the pi7c 9x130, until the discard timer expires reset to 00 9:8 pci read prefetch mode rw 00 : one cache line prefetch if memory read address is in prefetchable range at pci interface 01 : reserved 10 : full prefetch if memory read addr ess is in prefetchable range at pci interface 11 : disconnect on the first dword reset to 00 10 pci special delayed read mode enable rw 0: retry any master at pci bus that repeats its transaction with command code changes. 1: allows any master at pci bus to change memory command code (mr, mrl, mrm) after it has received a retr y. the PI7C9X130 will complete the memory read transaction and return data back to the master if the address and byte enables are the same. reset to 0 11 reserved ro reset to 0 14:12 maximum memory read byte count rw maximum byte count is used by the PI7C9X130 when generating memory read requests on the pcie link in response to a memory read initiated on the pci bus and bit [9:8], bit [7:6], and bit [5:4] are set to ?full prefetch?. 000: 512 bytes (default) 001: 128 bytes 010: 256 bytes 011: 512 bytes 100: 1024 bytes 101: 2048 bytes 110: 4096 bytes 111: 512 bytes reset to 000
PI7C9X130 pci express to pci-x bridge page 48 of 157 pericom semiconductor september 2007 - rev 1.2 7.4.32 chip control 0 register ? offset 40h bit function type description 15 flow control update control rw 0: flow control is updated for every two credits available 1: flow control is updated for every on credit available reset to 0 16 pci retry counter status rwc 0: the pci retry counter has not expired since the last reset 1: the pci retry counter has expired since the last reset reset to 0 18:17 pci retry counter control rw 00: no expiration limit 01: allow 256 retries before expiration 10: allow 64k retries before expiration 11: allow 2g retrie s before expiration reset to 00 19 pci discard timer disable rw 0: enable the pci discard timer in conjunction with bit [27] offset 3ch (bridge control register) 1: disable the pci discard timer in conj unction with bit [27] offset 3ch (bridge control register) reset to 0 20 pci discard timer short duration rw 0: use bit [24] offset 3ch for forward bridge or bit [25] offset 3ch for reverse bridge to indicate how many pci cloc ks should be allowed before the pci discard timer expires 1: 64 pci clocks allowed before the pci discard timer expires reset to 0 22:21 configuration request retry timer counter value control rw 00: timer expires at 25us 01: timer expires at 0.5ms 10: timer expires at 5ms 11: timer expires at 25ms reset to 01 23 delayed transaction order control rw 0: enable out-of-order capability between delayed transactions 1: disable out-of-order capability between delayed transactions reset to 0 25:24 completion timer counter value control rw 00: timer expires at 50us 01: timer expires at 10ms 10: timer expires at 50ms 11: timer disabled reset to 01 26 isochronous traffic support enable rw 0: all memory transactions from pci-x to pcie will be mapped to tc0 1: all memory transactions from pci-x to pcie will be mapped to traffic class defined in bit [29:27] of offset 40h. reset to 0 29:27 traffic class used for isochronous traffic rw reset to 001 30 serial link interface loopback enable rw / ro 0: normal mode 1: enable serial link interface loopb ack mode (tx to rx) if tm0=low, tm1=high, tm2=high, msk_in=high, revrsb=high. pci transaction from pci bus will loop back to pci bus ro for forward bridge reset to 0
PI7C9X130 pci express to pci-x bridge page 49 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 31 primary configuration access lockout ro / rw 0: PI7C9X130 configuration sp ace can be accessed from both interfaces 1: PI7C9X130 configuration space can only be accessed from the secondary interface. primary bus accessed receives completion with crs status for forward bridge, or target retry for reverse bridge reset to 0 if tm0 is low 7.4.33 reserved register ? offset 44h bit function type description 31:0 reserved ro reset to 00000000h 7.4.34 arbiter enable register ? offset 48h bit function type description 0 enable arbiter 0 rw 0: disable arb itration for internal PI7C9X130 request 1: enable arbitration for internal PI7C9X130 request reset to 1 1 enable arbiter 1 rw 0: disable arbitration for master 1 1: enable arbitration for master 1 reset to 1 2 enable arbiter 2 rw 0: disable arbitration for master 2 1: enable arbitration for master 2 reset to 1 3 enable arbiter 3 rw 0: disable arbitration for master 3 1: enable arbitration for master 3 reset to 1 4 enable arbiter 4 rw 0: disable arbitration for master 4 1: enable arbitration for master 4 reset to 1 5 enable arbiter 5 rw 0: disable arbitration for master 5 1: enable arbitration for master 5 reset to 1 6 enable arbiter 6 rw 0: disable arbitration for master 6 1: enable arbitration for master 6 reset to 1 7 enable arbiter 7 rw 0: disable arbitration for master 7 1: enable arbitration for master 7 reset to 1 8 enable arbiter 8 rw 0: disable arbitration for master 8 1: enable arbitration for master 8 reset to 1
PI7C9X130 pci express to pci-x bridge page 50 of 157 pericom semiconductor september 2007 - rev 1.2 7.4.35 arbiter mode regi ster ? offset 48h bit function type description 9 external arbiter bit ro 0 : enable internal arbite r (if cfn_l is tied low) 1 : use external arbiter (if cfn_l is tied high) reset to 0/1 according to what cfn_l is tied to 10 broken master timeout enable rw 0 : broken master timeout disable 1 : this bit enables the inte rnal arbiter to count 16 pci bus cycles while waiting for frame_l to become active when a device?s pci bus gnt is active and the pci bus is idle. if the broken master timeout expires, the pci bus gnt for the device is de-asserted. reset to 0 11 broken master refresh enable rw 0: a broken master will be ignored fo rever after de-asserting its req_l for at least 1 clock 1: refresh broken master state after all the other masters have been served once reset to 0 19:12 arbiter fairness counter rw 08h: these bits are the initialization va lue of a counter used by the internal arbiter. it controls the number of pc i bus cycles that the arbiter holds a device?s pci bus gnt active after detecting a pci bus req_l from another device. the counter is reloaded whenever a new pci bus gnt is asserted. for every new pci bus gnt, the counter is ar med to decrement when it detects the new fall of frame_l. if the arbiter fair ness counter is set to 00h, the arbiter will not remove a device?s pci bus gnt until the device has de-asserted its pci bus req. reset to 08h 20 gnt_l output toggling enable rw 0: gnt_l not de-asserted afte r granted master assert frame_l 1: gnt_l de-asserts for 1 clock after 2 cl ocks of the granted master asserting frame_l reset to 0 21 reserved ro reset to 0 7.4.36 arbiter priority register ? offset 48h bit function type description 22 arbiter priority 0 rw 0: low prio rity request to internal PI7C9X130 1: high priority request to internal PI7C9X130 reset to 1 23 arbiter priority 1 rw 0: low priority request to master 1 1: high priority request to master 1 reset to 0 24 arbiter priority 2 rw 0: low priority request to master 2 1: high priority request to master 2 reset to 0 25 arbiter priority 3 rw 0: low priority request to master 3 1: high priority request to master 3 reset to 0 26 arbiter priority 4 rw 0: low priority request to master 4 1: high priority request to master 4 reset to 0
PI7C9X130 pci express to pci-x bridge page 51 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 27 arbiter priority 5 rw 0: low priority request to master 5 1: high priority request to master 5 reset to 0 28 arbiter priority 6 rw 0: low priority request to master 6 1: high priority request to master 6 reset to 0 29 arbiter priority 7 rw 0: low priority request to master 7 1: high priority request to master 7 reset to 0 30 arbiter priority 8 rw 0: low priority request to master 8 1: high priority request to master 8 reset to 0 31 reserved ro reset to 0 7.4.37 reserved registers ? offset 4ch to 64h 7.4.38 express transmitter/receiver control register ? offset 68h bit function type description 1:0 nominal driver current control rw 00: 20ma 01: 10ma 10: 28ma 11: reserved reset to 00 5:2 driver current scale multiple control rw 0000: 1.00 x nominal driver current 0001: 1.05 x nominal driver current 0010: 1.10 x nominal driver current 0011: 1.15 x nominal driver current 0100: 1.20 x nominal driver current 0101: 1.25 x nominal driver current 0110: 1.30 x nominal driver current 0111: 1.35 x nominal driver current 1000: 1.60 x nominal driver current 1001: 1.65 x nominal driver current 1010: 1.70 x nominal driver current 1011: 1.75 x nominal driver current 1100: 1.80 x nominal driver current 1101: 1.85 x nominal driver current 1110: 1.90 x nominal driver current 1111: 1.95 x nominal driver current reset to 0000
PI7C9X130 pci express to pci-x bridge page 52 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 11:8 driver de-emphasis level control rw 0000: 0.00 db 0001: -0.35 db 0010: -0.72 db 0011: -1.11 db 0100: -1.51 db 0101: -1.94 db 0110: -2.38 db 0111: -2.85 db 1000: -3.35 db 1001: -3.88 db 1010: -4.44 db 1011: -5.04 db 1100: -5.68 db 1101: -6.38 db 1110: -7.13 db 1111: -7.96 db reset to 1000 13:12 transmitter termination control rw 00: 52 ohms 01: 57 ohms 10: 43 ohms 11: 46 ohms reset to 00 15:14 receiver termination control rw 00: 52 ohms 01: 57 ohms 10: 43 ohms 11: 46 ohms reset to 00 29:16 reserved ro reset to 00h 7.4.39 upstream memory write fragm ent control register ? offset 68h bit function type description 31:30 memory write fragment control rw upstream memory write fragment control 00: fragment at 32-byte boundary 01: fragment at 64-byte boundary 1x: fragement at 128-byte boundary reset to 10h 7.4.40 reserved register ? offset 6ch 7.4.41 eeprom autoload control/status register ? offset 70h bit function type description 0 initiate eeprom read or write cycle rw this bit will be reset to 0 afte r the eeprom operation is finished. 0: eeprom autoload disabled 0 -> 1: starts the eeprom read or write cycle reset to 0
PI7C9X130 pci express to pci-x bridge page 53 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 1 control command for eeprom rw 0: read 1: write reset to 0 2 eeprom error ro 0: eeprom acknowledge is always received during the eeprom cycle 1: eeprom acknowledge is not received during eeprom cycle reset to 0 3 eprom autoload complete status ro 0: eeprom autoload is not successfully completed 1: eeprom autoload is successfully completed reset to 0 5:4 eeprom clock frequency control rw where pclk is 125mhz 00: pclk / 4096 01: pclk / 2048 10: pclk / 1024 11: pclk / 128 reset to 00 6 eeprom autoload control rw 0: enable ee prom autoload 1: disable eeprom autoload reset to 0 7 fast eeprom autoload control rw 0: normal speed of eeprom autoload 1: increase eeprom autoload by 32x reset to 0 8 eeprom autoload status ro 0: eeprom autoload is not on going 1: eeprom autoload is on going reset to 0 15:9 eeprom word address rw eeprom word address for eeprom cycle reset to 0000000 31:16 eeprom data rw eeprom data to be written into the eeprom reset to 0000h 7.4.42 hot swap control and status register ? offset 74h bit function type description 7:0 capability id for hot swap ro reset to 06h when hot sawp is enab le (hs_en=1) or 00h when hot swap is disabled (hs_en=0) 15:8 next capability pointer ro reset to 00h to inidicate the end of the capability chain 16 device hiding arm rw device hiding armed when this bit is set to 1 reset to 0 17 enum_l signal mask rw enum_l signal is masked when this bit is set to 1 reset to 0 18 pending insertion or extraction rw when this bit is 1, ins is armed, or either ins or ext has a value of logic 1 when this bit is 0, ins is not armed or both ins and ext have a value of logic 0 reset to 0h 19 led on off rw when this bit is 1, led is on when this bit is 0, led is off reset to 0 21:20 programming interface ro pi=01 supports pi=00 plus device hidi ng and pending insertion or extraction bits reset to 01
PI7C9X130 pci express to pci-x bridge page 54 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 22 ext for extraction rwc ext bit indicates enum_l stat us of extraction. when ext is 1, enum_l is asserted reset to 0 23 ins for insertion rwc ins bit indicates enum_l stat us of insertion. when ins is 1, enum_l is asserted reset to 1 31:24 reserved ro reset to 00h 7.4.43 gpio data and contro l register ? offset 78h bit function type description 11:0 reserved ro reset to 000h 15:12 gpio output write- 1-to-clear rw reset to 0h 19:16 gpio output write- 1-to-set rw reset to 0h 23:20 gpio output enable write-1-to-clear rw reset to 0h 27:24 gpio output enable write-1-to-set rw reset to 0h 31:28 gpio input data register ro reset to 0h 7.4.44 reserved register ? offset 7ch 7.4.45 pci-x capability id register ? offset 80h bit function type description 7:0 pci-x capability id ro pci-x capability id reset to 07h 7.4.46 next capability pointer register ? offset 80h bit function type description 15:8 next capability pointer ro point to power management reset to 90h 7.4.47 pci-x secondary status register ? offset 80h bit function type description 16 64-bit device on secondary bus interface ro 64-bit supported when dev64 is set to high reset to 1in forward bridge mode and de v64 is set to high or reset to 0 in reverse bridge mode 17 133mhz capable ro when this bit is 1, PI7C9X130 is 133mhz capable on its secondary bus interface
PI7C9X130 pci express to pci-x bridge page 55 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description reset to 1 in forward bridge mode or 0 in reverse bridge mode 18 split completion discarded ro / rwc this bit is a read-only and set to 0 in reverse bridge mode or is read-write in forward bridge mode when this is set to 1, a split completion has been discarded by PI7C9X130 at secondary bus because the requester did not accept the split completion transaction reset to 0 19 unexpected split completion rwc this bit is set to 0 in forward bridge mode or is read-write in reverse bridge mode when this bit is set to 1, an unexpected split completion has been received with the requester id equaled to the secondary bus number, device number, and function number at the pi7x9x130 secondary bus interface reset to 0 20 split completion overrun rwc when this bit is set to 1, a split co mpletion has been terminated by PI7C9X130 with either a retry or disconnect at the next adb due to the buffer full condition reset to 0 21 split request delayed rwc when this bit is set to 1, a split re quest is delayed because PI7C9X130 is not able to forward the split request tran saction to its secondary bus due to insufficient room within the limit specified in the split transaction commitment limit field of the downstream split transaction control register reset to 0 24:22 secondary clock frequency ro these bits are only meaningful in fo rward bridge mode. in reverse bridge mode, all three bits are set to zero. 000: conventional pci mode (minim um clock period not applicable) 001: 66mhz (minimum clock period is 15ns) 010: 100 to 133mhz (minimum clock period is 7.5ns) 011: reserved 1xx: reserved reset to 000 31:25 reserved ro 0000000 7.4.48 pci-x bridge status register ? offset 84h bit function type description 2:0 function number ro function number (ad [10: 8] of a type 0 configuration transaction) reset to 000 7:3 device number ro device number (ad [15:11] of a type 0 configuration transaction) is assigned to the PI7C9X130 by the connection of system hardware. each time the PI7C9X130 is addressed by a configura tion write transaction, the bridge updates this register with the contents of ad [15:11] of the address phase of the configuration transaction, regardless of which register in the PI7C9X130 is addressed by the transaction. the pi7c 9x130 is addressed by a configuration write transaction if all of the following are true: ? the transaction uses a configuration write command ? idsel is asserted during the address phase ? ad [1:0] are 00 (type o configuration transaction) ? ad [10:8] of the configuration addr ess contain the appropriate function number reset to 11111
PI7C9X130 pci express to pci-x bridge page 56 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 15:8 bus number ro additional address from which th e contents of the primary bus number register on type 1 configuration space header is read. the PI7C9X130 uses the bus number, device number, and function numb er fields to create a completer id when responding with a split completion to a read of an internal PI7C9X130 register. these fields are also used for cases when one interface is in conventional pci mode and the other is in pci-x mode. reset to 11111111 16 64-bit device on primary bus interface ro 64-bit supported when dev64 is set to high reset to 0 in forward bridge mode or in reverse bridge mode with req64_l is high at the de-assertion of reset_l or re set to 1 in reverse bridge mode with req64_l is low at the de-assertion of reset_l 17 133mhz capable ro when this bit is 1, pi7c 9x130 is 133mhz capable on its primary bus interface reset to 0 in forward bridge mode or 1 in reverse bridge mode 18 split completion discarded ro / rwc this bit is a read-only and set to 0 in reverse bridge mode or is read-write in forward bridge mode when this is set to 1, a split completion has been discarded by PI7C9X130 at primary bus because the requester did not accept the split completion transaction reset to 0 19 unexpected split completion rwc this bit is set to 0 in forward bridge mode or is read-write in reverse bridge mode when this is set to 1, an unexpected split completion has been received with the requester id equaled to the primary bus number, device number, and function number at the pi7x9x130 primary bus interface reset to 0 20 split completion overrun rwc when this bit is set to 1, a split co mpletion has been terminated by PI7C9X130 with either a retry or disconnect at the next adb due to the buffer full condition reset to 0 21 split request delayed rwc when this bit is set to 1, a split re quest is delayed because PI7C9X130 is not able to forward the split request tran saction to its primary bus due to insufficient room within the limit specified in the split transaction commitment limit field of the downstream split transaction control register reset to 0 31:22 reserved ro 0000000000 7.4.49 upstream split transaction register ? offset 88h bit function type description 15:0 upstream split transaction capability ro upstream split transaction capability sp ecifies the size of the buffer (in the unit of adqs) to store split completions fo r memory read. it applies to the requesters on the secondary bus in addressing the completers on the primary bus. the 0010h value shows that the buffer has 16 adqs or 2k bytes storage reset to 0010h 31:16 split transaction commitment limit rw upstream split transaction commitment limit indicates the cumulative sequence size of the commitment limit in units of adqs. this field can be programmed to any value or equal to th e content of the split capability field. for example, if the limit is set to ff ffh, PI7C9X130 is allowed to forward all split requests of any size regardless of the amount of buffer space available. the split transaction commitment limit is set to 0010h that is the same value as the split transaction capability. reset to 0010h
PI7C9X130 pci express to pci-x bridge page 57 of 157 pericom semiconductor september 2007 - rev 1.2 7.4.50 downstream split transact ion register ? offset 8ch bit function type description 15:0 downstream split transaction capability ro downstream split transaction capability specifies the size of the buffer (in the unit of adqs) to store split completions fo r memory read. it applies to the requesters on the primary bus in addre ssing the completers on the secondary bus. the 0010h value shows that the buffer has 16 adqs or 2k bytes storage reset to 0010h 31:16 downstream split transaction commitment limit rw downstream split transaction comm itment limit indicates the cumulative sequence size of the commitment limit in units of adqs. this field can be programmed to any value or equal to th e content of the split capability field. for example, if the limit is set to ff ffh, PI7C9X130 is allowed to forward all split requests of any size regardless of the amount of buffer space available. the split transaction commitment limit is set to 0010h that is the same value as the split transaction capability. reset to 0010h 7.4.51 power management id register ? offset 90h bit function type description 7:0 power management id ro power management id register reset to 01h 7.4.52 next capability pointer register ? offset 90h bit function type description 15:8 next pointer ro next pointer (point to subsystem id and subsystem vendor id) reset to a8h 7.4.53 power management capabi lity register ? offset 90h bit function type description 18:16 version number ro version number that complie s with revision 2.0 of the pci power management interface specification. reset to 010 19 pme clock ro pme clock is not required for pme_l generation reset to 0 20 reserved ro reset to 0 21 device specific initialization (dsi) ro dsi ? no special initialization of th is function beyond the standard pci configuration header is required following transition to the d0 un-initialized state reset to 0
PI7C9X130 pci express to pci-x bridge page 58 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 24:22 aux current ro 000: 0ma 001: 55ma 010: 100ma 011: 160ma 100: 220ma 101: 270ma 110: 320ma 111: 375ma reset to 001 25 d1 power management ro d1 power management is not supported reset to 0 26 d2 power management ro d2 power management is not supported reset to 0 31:27 pme_l support ro pme_l is supported in d3 cold, d3 hot, and d0 states. reset to 11001 7.4.54 power management control and status register ? offset 94h bit function type description 1:0 power state rw power state is used to determ ine the current power state of PI7C9X130. if a non-implemented state is written to th is register, PI7C9X130 will ignore the write data. when present state is d3 and changing to d0 state by programming this register, the power state change ca uses a device reset without activating the reset_l of pci/pci-x bus interface 00: d0 state 01: d1 state not implemented 10: d2 state not implemented 11: d3 state reset to 00 7:2 reserved ro reset to 000000 8 pme enable rws 0: pme_l assertion is disabled 1: pme_l assertion is enabled reset to 0 12:9 data select ro data re gister is not implemented reset to 0000 14:13 data scale ro data re gister is not implemented reset to 00 15 pme status rwcs pme_l is supported reset to 0 7.4.55 pci-to-pci bridge support ex tension register ? offset 94h bit function type description 21:16 reserved ro reset to 000000 22 b2/b3 support ro 0: b2 / b3 not support for d3hot reset to 0
PI7C9X130 pci express to pci-x bridge page 59 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 23 pci bus power/clock control enable ro 0: pci bus power/clock disabled reset to 0 31:24 data register ro data register is not implemented reset to 00h 7.4.56 reserved registers ? offset 98h to 9ch 7.4.57 capability id register ? offset a0h bit function type description 7:0 capability id ro capability id fo r slot identification. si is o ff by default but can be turned on through eeprom interface reset to 04h 7.4.58 next pointer register ? offset a0h bit function type description 15:8 next pointer ro next pointer ? poi nts to pci express capabilities register reset to b0h 7.4.59 slot number register ? offset a0h bit function type description 20:16 expansion slot number rw expansion slot number reset to 00000 21 first in chassis rw first in chassis reset to 0 23:22 reserved ro reset to 00 7.4.60 chassis number register ? offset a0h bit function type description 31:24 chassis number rw chassis number reset to 00h
PI7C9X130 pci express to pci-x bridge page 60 of 157 pericom semiconductor september 2007 - rev 1.2 7.4.61 secondary clock and clkrun co ntrol register ? offset a4h bit function type description 1:0 clkout0 enable rw clkout (slot 0) enable for forward bridge mode only 00: enable clkout0 01: enable clkout0 10: enable clkout0 11: disable clkout0 and driven low reset to 00 3:2 clkout1 enable rw clkout (slot 1) enable for forward bridge mode only 00: enable clkout1 01: enable clkout1 10: enable clkout1 11: disable clkout1 and driven low reset to 00 5:4 clkout2 enable rw clkout (slot 2) enable for forward bridge mode only 00: enable clkout2 01: enable clkout2 10: enable clkout2 11: disable clkout2 and driven low reset to 00 7:6 clkout3 enable rw clkout (slot 3) enable for forward bridge mode only 00: enable clkout3 01: enable clkout3 10: enable clkout3 11: disable clkout3 and driven low reset to 00 8 clkout4 enable rw clkout (device 1) enable for forward bridge mode only 0: enable clkout4 1: disable clkout4 and driven low reset to 0 9 clkout5 enable rw clkout (device 2) enable for forward bridge mode only 0: enable clkout5 1: disable clkout5 and driven low reset to 0 10 clkout6 enable rw clkout (the bridge) enable for forward bridge mode only 0: enable clkout6 1: disable clkout6 and driven low reset to 0 11 reserved ro reset to 0 12 reserved ro reset to 0 13 secondary clock stop status ro secondary clock stop status 0: secondary clock not stopped 1: secondary clock stopped reset to 0
PI7C9X130 pci express to pci-x bridge page 61 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 14 secondary clkrun protocol enable rw 0: disable protocol 1: enable protocol reset to 0 15 clkrun mode rw 0: stop the secondary cl ock only when bridge is at d3hot state 1: stop the secondary clock whenever the secondary bus is idle and there are no requests from the primary bus reset to 0 31:16 reserved ro reset to 0000h 7.4.62 capability id register ? offset a8h bit function type description 7:0 capability id ro capability id for subsystem id and subsystem vendor id reset to 0dh 7.4.63 next pointer register ? offset a8h bit function type description 15:8 next item pointer ro next item pointer (point to pci express capability by default but can be programmed to a0h if slot identif ication capability is enabled) reset to b0h 7.4.64 reserved register ? offset a8h bit function type description 31:16 reserved ro reset to 0000h 7.4.65 subsystem vendor id register ? offset ach bit function type description 15:0 subsystem vendor id ro subsystem vendor id identifies the particular add-in card or subsystem reset to 00h 7.4.66 subsystem id register ? offset ach bit function type description 31:16 subsystem id ro subsystem id identifie s the particular add-in card or subsystem reset to 00h 7.4.67 pci express capability id register ? offset b0h bit function type description
PI7C9X130 pci express to pci-x bridge page 62 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 7:0 pci express capability id ro pci express capability id reset to 10h 7.4.68 next capability pointer register ? offset b0h bit function type description 15:8 next item pointer ro next ite m pointer (points to vpd register) reset to d8h 7.4.69 pci express capability register ? offset b0h bit function type description 19:16 capability version ro reset to 1h 23:20 device / port type ro 0000: pci express endpoint device 0001: legacy pci express endpoint device 0100: root port of pci express root complex 0101: upstream port of pci express switch 0110: downstream port of pci express switch 0111: pci express to pci bridge 1000: pci to pci express bridge others: reserved reset to 7h for forward bridge or 8h for reverse bridge 24 slot implemented ro reset to 0 for fo rward bridge or 1 for reverse bridge 29:25 interrupt message number ro reset to 0h 31:30 reserved ro reset to 0 7.4.70 device capability re gister ? offset b4h bit function type description 2:0 maximum payload size ro 000: 128 bytes 001: 256 bytes 010: 512 bytes 011: 1024 bytes 100: 2048 bytes 101: 4096 bytes 110: reserved 111: reserved reset to 001 4:3 phantom functions ro no phantom functions supported reset to 0 5 8-bit tag field ro 8-bit tag field supported reset to 1h
PI7C9X130 pci express to pci-x bridge page 63 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 8:6 endpoint l0?s latency ro endpoint l0?s acceptable latency 000: less than 64 ns 001: 64 ? 128 ns 010: 128 ? 256 ns 011: 256 ? 512 ns 100: 512 ns ? 1 us 101: 1 ? 2 us 110: 2 ? 4 us 111: more than 4 us reset to 000 11:9 endpoint l1?s latency ro endpoint l1?s acceptable latency 000: less than 1 us 001: 1 ? 2 us 010: 2 ? 4 us 011: 4 ? 8 us 100: 8 ? 16 us 101: 16 ? 32 us 110: 32 ? 64 us 111: more than 64 us reset to 000 12 attention button present ro 0: if hot plug is disabled 1: if hot plug is enabled at forward bridge reset to 0 when hot-plug is disabled or 1 when hot-plug is enabled through strapping. 13 attention indicator present ro 0: if hot plug is disabled 1: if hot plug is enable at forward bridge reset to 0 when hot-plug is disabled or 1 when hot-plug is enabled through strapping. 14 power indicator present ro 0: if hot plug is disabled 1: if hot plug is enable at forward bridge reset to 0 when hot-plug is disabled or 1 when hot-plug is enabled through strapping. 17:15 reserved ro reset to 000 25:18 captured slot power limit value ro these bits are set by the set_slot_power_limit message reset to 00h 27:26 captured slot power limit scale ro this value is set by the set_slot_power_limit message reset to 00 31:28 reserved ro reset to 0h 7.4.71 device control register ? offset b8h bit function type description 0 correctable error reporting enable rw reset to 0h 1 non-fatal error reporting enable rw reset to 0h 2 fatal error reporting enable rw reset to 0h 3 unsupported request reporting enable rw reset to 0h 4 relaxed ordering enable ro relaxed ordering disabled reset to 0h
PI7C9X130 pci express to pci-x bridge page 64 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 7:5 max payload size rw this field sets the maximum tlp payload size for the PI7C9X130 000: 128 bytes 001: 256 bytes 010: 512 bytes 011:1024 bytes 100: 2048 bytes 101: 4096 bytes 110: reserved 111: reserved reset to 000 8 extended tag field enable rw reset to 0 9 phantom functions enable ro phantom functions not supported reset to 0 10 auxiliary power pm enable ro auxiliary power pm not supported reset to 0 11 no snoop enable ro bridge never sets the no snoop attribute in the transaction it initiates reset to 0 14:12 maximum read request size rw this field sets the maximum read request size for the device as a requester 000: 128 bytes 001: 256 bytes 010: 512 bytes 011: 1024 bytes 100: 2048 bytes 101: 4096 bytes 110: reserved 111: reserved reset to 2h 15 configuration retry enable rw reset to 0 7.4.72 device status register ? offset b8h bit function type description 16 correctable error detected rwc reset to 0 17 non-fatal error detected rwc reset to 0 18 fatal error detected rwc reset to 0 19 unsupported request detected rwc reset to 0 20 aux power detected ro reset to 1 21 transaction pending ro 0: no transaction is pending on transaction layer interface 1: transaction is pending on transaction layer interface reset to 0 31:22 reserved ro reset to 0000000000
PI7C9X130 pci express to pci-x bridge page 65 of 157 pericom semiconductor september 2007 - rev 1.2 7.4.73 link capability register ? offset bch bit function type description 3:0 maximum link speed ro indicates the maximum speed of the express link 0001: 2.5gb/s link reset to 1h 9:4 maximum link width ro indicates the maximum width of the express link (x4 at reset) 000000: reserved 000001: x1 000010: x2 000100: x4 001000: x8 001100: x12 010000: x16 100000: x32 reset to 000100 11:10 aspm support ro this field indicates the level of active state power management support 00: reserved 01: l0?s entry supported 10: reserved 11: l0?s and l1?s supported reset to 11 14:12 l0?s exit latency ro reset to 3h 17:15 l1?s exit latency ro reset to 0h 23:18 reserved ro reset to 0h 31:24 port number ro reset to 00h 7.4.74 link control register ? offset c0h bit function type description 1:0 aspm control rw this field controls th e level of aspm supported on the express link 00: disabled 01: l0?s entry enabled 10: l1?s entry enabled 11: l0?s and l1?s entry enabled reset to 00 2 reserved ro reset to 0 3 read completion boundary (rcb) ro read completion boundary not supported reset to 0 4 link disable ro / rw ro for forward bridge reset to 0 5 retrain link ro / rw ro for forward bridge reset to 0 6 common clock configuration rw reset to 0 7 extended sync rw reset to 0 15:8 reserved ro reset to 00h
PI7C9X130 pci express to pci-x bridge page 66 of 157 pericom semiconductor september 2007 - rev 1.2 7.4.75 link status register ? offset c0h bit function type description 19:16 link speed ro this field indicates the negotiated speed of the express link 001: 2.5gb/s link reset to 1h 25:20 negotiated link width ro 000000: reserved 000001: x1 000010: x2 000100: x4 001000: x8 001100: x12 010000: x16 100000: x32 reset to 000100 26 link train error ro reset to 0 27 link training ro reset to 0 28 slot clock configuration ro reset to 1 31:29 reserved ro reset to 0 7.4.76 slot capability register ? offset c4h bit function type description 0 attention button present ro 0: if hot plug is disabled 1: if hot plug is enabled at reverse bridge reset to 0 when hot-plug is disabled or 1 when hot-plug is enabled through strapping. 1 power controller present ro reset to 0 2 mrl sensor present ro 0: if hot plug is disabled 1: if hot plug is enabled at reverse bridge reset to 0 when hot-plug is disabled or 1 when hot-plug is enabled through strapping. 3 attention indicator present ro 0: if hot plug is disabled 1: if hot plug is enabled at reverse bridge reset to 0 when hot-plug is disabled or 1 when hot-plug is enabled through strapping. 4 power indicator present ro 0: if hot plug is disabled 1: if hot plug is enabled at reverse bridge reset to 0 when hot-plug is disabled or 1 when hot-plug is enabled through strapping. 5 hot plug surprise ro reset to 0 6 hot plug capable ro 0: if hot plug is disabled 1: if hot plug is enabled at reverse bridge reset to 0 when hot-plug is disabled or 1 when hot-plug is enabled through strapping. 14:7 slot power limit value ro reset to 00h 16:15 slot power limit scale ro reset to 00 18:17 reserved ro reset to 00 31:19 physical slot number ro reset to 0
PI7C9X130 pci express to pci-x bridge page 67 of 157 pericom semiconductor september 2007 - rev 1.2 7.4.77 slot control register ? offset c8h bit function type description 0 attention button present enable rw reset to 0 1 power fault detected enable rw reset to 0 2 mrl sensor changed enable rw reset to 0 3 presence detect changed enable rw reset to 0 4 command completed interrupt enable rw reset to 0 5 hot plug interrupt enable rw reset to 0 7:6 attention indicator control rw reset to 0 9:8 power indicator control rw reset to 0 10 power controller control rw reset to 0 15:11 reserved ro reset to 0 7.4.78 slot status register ? offset c8h bit function type description 16 attention button pressed ro reset to 0 17 power fault detected ro reset to 0 18 mrl sensor changed ro reset to 0 19 presence detect changed ro reset to 0 20 command completed ro reset to 0 21 mrl sensor state ro reset to 0 22 presence detect state ro reset to 0 31:23 reserved ro reset to 0 7.4.79 xpip configuration register 0 ? offset cch bit function type description 0 hot reset enable rw reset to 0 1 loopback function enable rw reset to 0 2 cross link function enable rw reset to 0 3 software direct to configuration state when in ltssm state rw reset to 0 4 internal selection for debug mode rw reset to 0
PI7C9X130 pci express to pci-x bridge page 68 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 7:5 negotiate lane number of times rw reset to 3h 12:8 ts1 number counter rw reset to 10h 15:13 reserved ro reset to 0 31:16 ltssm enter l1 timer default value rw reset to 0400h 7.4.80 xpip configuration register 1 ? offset d0h bit function type description 9:0 l0?s lifetime timer rw reset to 0 15:10 reserved ro reset to 0 31:16 l1 lifetime timer rw reset to 0 7.4.81 xpip configuration register 2 ? offset d4h bit function type description 7:0 cdr recovery time (in the number of fts order sets) rw reset to 54h a fast training sequence order set co mposes of one k28.5 (com) symbol and three k28.1 symbols. 14:8 l0?s exit to l0 latency rw reset to 2h 15 reserved ro reset to 0 22:16 l1 exit to l0 latency rw reset to 19h 23 reserved ro reset to 0 7.4.82 hot swap switch deboun ce counter ? offset d4h bit function type description 31:24 hot swap debounce counter ro / rw if hot swap is enabled, this counter is read-writeable (rw). this counter is read only (ro) if hot swap is disabled 00h: 1ms 01h: 2ms 02h: 3ms 03h: 4ms ? ffh: 256ms reset to 0 7.4.83 capability id register ? offset d8h bit function type description 7:0 capability id for vpd register ro reset to 03h
PI7C9X130 pci express to pci-x bridge page 69 of 157 pericom semiconductor september 2007 - rev 1.2 7.4.84 next pointer register ? offset d8h bit function type description 15:8 next pointer ro next pointer (f0h, points to msi capabilities) reset to f0h 7.4.85 vpd register ? offset d8h bit function type description 17:16 reserved ro reset to 0 23:18 vpd address for read/write cycle rw reset to 0 30:24 reserved ro reset to 0 31 vpd operation rw 0: generate a read cycle fr om the eeprom at the vpd address specified in bits [7:2] of offset d8h. this b it remains at ?0? until eeprom cycle is finished, after which the bit is then set to ?1?. data for reads is available at register ech. 1: generate a write cycle to the eeprom at the vpd address specified in bits [7:2] of offset d8h. this bit remains at ?1? until eeprom cycle is finished, after which it is then cleared to ?0?. reset to 0 7.4.86 vpd data register ? offset dch bit function type description 31:0 vpd data rw vpd data (eeprom data [address + 0x40]) the least significant byte of this register corresponds to the byte of vpd at the address specified by the vpd address regist er. the data read form or written to this register uses the normal pci byte transfer capabilities. reset to 0 7.4.87 reserved register - offset e0h to ech 7.4.88 message signaled interrupts id register ? offset f0h bit function type description 7:0 capability id for msi registers ro reset to 05h 7.4.89 next capabilities poin ter register ? offset f0h bit function type description 15:8 next pointer ro next pointer (00h indicates the end of capabilities) reset to 00h
PI7C9X130 pci express to pci-x bridge page 70 of 157 pericom semiconductor september 2007 - rev 1.2 7.4.90 message control register ? offset f0h bit function type description 16 msi enable rw 0: disable msi and default to intx for interrupt 1: enable msi for interrupt service and ignore intx interrupt pins 19:17 multiple message capable ro 000: 1 message requested 001: 2 messages requested 010: 4 messages requested 011: 8 messages requested 100: 16 messages requested 101: 32 messages requested 110: reserved 111: reserved reset to 000 22:20 multiple message enable rw 000: 1 message requested 001: 2 messages requested 010: 4 messages requested 011: 8 messages requested 100: 16 messages requested 101: 32 messages requested 110: reserved 111: reserved reset to 000 23 64-bit address capable rw reset to 1 31:24 reserved ro reset to 00h 7.4.91 message address register ? offset f4h bit function type description 1:0 reserved ro reset to 00 31:2 system specified message address rw reset to 0 7.4.92 message upper address register ? offset f8h bit function type description 31:0 system specified message upper address rw reset to 0 7.4.93 message data register ? offset fch bit function type description 15:0 system specified message data rw reset to 0 31:16 reserved ro reset to 0
PI7C9X130 pci express to pci-x bridge page 71 of 157 pericom semiconductor september 2007 - rev 1.2 7.4.94 advance error report ing capability id register ? offset 100h bit function type description 15:0 advance error reporting capability id ro reset to 0001h 7.4.95 advance error report ing capability versi on register ? offset 100h bit function type description 19:16 advance error reporting capability version ro reset to 1h 7.4.96 next capability offs et register ? offset 100h bit function type description 31:20 next capability offset ro next capability offset (150h points to vc capability) reset to 150h 7.4.97 uncorrectable error stat us register ? offset 104h bit function type description 0 training error status rwcs reset to 0 3:1 reserved ro reset to 0 4 data link protocol error status rwcs reset to 0 11:5 reserved ro reset to 0 12 poisoned tlp status rwcs reset to 0 13 flow control protocol error status rwcs reset to 0 14 completion timeout status rwcs reset to 0 15 completer abort status rwcs reset to 0 16 unexpected completion status rwcs reset to 0 17 receiver overflow status rwcs reset to 0 18 malformed tlp status rwcs reset to 0 19 ecrc error status rwcs reset to 0 20 unsupported request error status rwcs reset to 0 31:21 reserved ro reset to 0 7.4.98 uncorrectable e rror mask register ? offset 108h bit function type description 0 training error mast rws reset to 0
PI7C9X130 pci express to pci-x bridge page 72 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 3:1 reserved ro reset to 0 4 data link protocol error mask rws reset to 0 11:5 reserved ro reset to 0 12 poisoned tlp mask rws reset to 0 13 flow control protocol error mask rws reset to 0 14 completion timeout mask rws reset to 0 15 completion abort mask rws reset to 0 16 unexpected completion mask rws reset to 0 17 receiver overflow mask rws reset to 0 18 malformed tlp mask rws reset to 0 19 ecrc error mask rws reset to 0 20 unsupported request error mask rws reset to 0 31:21 reserved ro reset to 0 7.4.99 uncorrectable erro r severity register ? offset 10ch bit function type description 0 training error severity rws reset to 1 3:1 reserved ro reset to 0 4 data link protocol error severity rws reset to 1 11:5 reserved ro reset to 0 12 poisoned tlp severity rws reset to 0 13 flow control protocol error severity rws reset to 1 14 completion timeout severity rws reset to 0 15 completer abort severity rws reset to 0 16 unexpected completion severity rws reset to 0 17 receiver overflow severity rws reset to 1 18 malformed tlp severity rws reset to 1 19 ecrc error severity rws reset to 0 20 unsupported request error severity rws reset to 0 31:21 reserved ro reset to 0 7.4.100 correctable error status register ? offset 110h bit function type description 0 receiver error status rwcs reset to 0 5:1 reserved ro reset to 0
PI7C9X130 pci express to pci-x bridge page 73 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 6 bad tlp status rwcs reset to 0 7 bad dllp status rwcs reset to 0 8 replay_num rollover status rwcs reset to 0 11:9 reserved ro reset to 0 12 replay timer timeout status rwcs reset to 0 13 advisory non-fatal error status rwcs reset to 0 31:14 reserved ro reset to 0 7.4.101 correctable error mask register ? offset 114h bit function type description 0 receiver error mask rws reset to 0 5:1 reserved ro reset to 0 6 bad tlp mask rws reset to 0 7 bad dllp mask rws reset to 0 8 replay_num rollover mask rws reset to 0 11:9 reserved ro reset to 0 12 replay timer timeout mask rws reset to 0 31:13 reserved ro reset to 0 7.4.102 advanced error capabi lities & control re gister ? offset 118h bit function type description 4:0 first error pointer ros reset to 0h 5 ecrc generation capable ro reset to 1 6 ecrc generation enable rws reset to 0 7 ecrc check capable ro reset to 1 8 ecrc check enable rws reset to 0 31:9 reserved ro reset to 0 7.4.103 header log regis ter 1 ? offset 11ch bit function type description 7:0 header byte 3 ros reset to 0 15:8 header byte 2 ros reset to 0 23:16 header byte 1 ros reset to 0 31:24 header byte 0 ros reset to 0 7.4.104 header log regi ster 2 ? offset 120h bit function type description 7:0 header byte 7 ros reset to 0 15:8 header byte 6 ros reset to 0 23:16 header byte 5 ros reset to 0 31:24 header byte 4 ros reset to 0
PI7C9X130 pci express to pci-x bridge page 74 of 157 pericom semiconductor september 2007 - rev 1.2 7.4.105 header log regi ster 3 ? offset 124h bit function type description 7:0 header byte 11 ros reset to 0 15:8 header byte 10 ros reset to 0 23:16 header byte 9 ros reset to 0 31:24 header byte 8 ros reset to 0 7.4.106 header log regi ster 4 ? offset 128h bit function type description 7:0 header byte 15 ros reset to 0 15:8 header byte 14 ros reset to 0 23:16 header byte 13 ros reset to 0 31:24 header byte 12 ros reset to 0 7.4.107 secondary uncorrectable error st atus register ? offset 12ch bit function type description 0 target abort on split completion status rwcs reset to 0 1 master abort on split completion status rwcs reset to 0 2 received target abort status rwcs reset to 0 3 received master abort status rwcs reset to 0 4 reserved ro reset to 0 5 unexpected split completion error status rwcs reset to 0 6 uncorrectable split completion message data error status rwcs reset to 0 7 uncorrectable data error status rwcs reset to 0 8 uncorrectable attribute error status rwcs reset to 0 9 uncorrectable address error status rwcs reset to 0 10 delayed transaction discard timer expired status rwcs reset to 0 11 perr_l assertion detected status rwcs reset to 0 12 serr_l assertion detected status rwcs reset to 0 13 internal bridge error status rwcs reset to 0 31:14 reserved ro reset to 0
PI7C9X130 pci express to pci-x bridge page 75 of 157 pericom semiconductor september 2007 - rev 1.2 7.4.108 secondary uncorrectable error mask register ? offset 130h bit function type description 0 target abort on split completion mask rws reset to 0 1 master abort on split completion mask rws reset to 0 2 received target abort mask rws reset to 0 3 received master abort mask rws reset to 1 4 reserved ro reset to 0 5 unexpected split completion error mask rws reset to 1 6 uncorrectable split completion message data error mask rws reset to 0 7 uncorrectable data error mask rws reset to 1 8 uncorrectable attribute error mask rws reset to 1 9 uncorrectable address error mask rws reset to 1 10 delayed transaction discard timer expired mask rws reset to 1 11 perr_l assertion detected mask rws reset to 0 12 serr_l assertion detected mask rws reset to 1 13 internal bridge error mask rws reset to 0 31:14 reserved ro reset to 0 7.4.109 secondary uncorrectable error severity register ? offset 134h bit function type description 0 target abort on split completion severity rws reset to 0 1 master abort on split completion severity rws reset to 0 2 received target abort severity rws reset to 0 3 received master abort severity rws reset to 0 4 reserved ro reset to 0 5 unexpected split completion error severity rws reset to 0 6 uncorrectable split completion message data error severity rws reset to 1 7 uncorrectable data error severity rws reset to 0
PI7C9X130 pci express to pci-x bridge page 76 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 8 uncorrectable attribute error severity rws reset to 1 9 uncorrectable address error severity rws reset to 1 10 delayed transaction discard timer expired severity rws reset to 0 11 perr_l assertion detected severity rws reset to 0 12 serr_l assertion detected severity rws reset to 1 13 internal bridge error severity rws reset to 0 31:14 reserved ro reset to 0 7.4.110 secondary error capability an d control register ? offset 138h bit function type description 4:0 secondary first error pointer row reset to 0 31:5 reserved ro reset to 0 7.4.111 secondary header log register ? offset 13ch ? 148h bit function type description 35:0 transaction attribute ros transaction attribute, cbe [3:0] and ad [31:0] during attribute phase reset to 0 39:36 transaction command lower ros transaction command lower, cbe [3:0] during first address phase reset to 0 43:40 transaction command upper ros transaction command upper, cbe [3:0 ] during second address phase of dac transaction reset to 0 63:44 reserved ros reset to 0 95:64 transaction address ros transaction addr ess, ad [31:0] during first address phase reset to 0 127:96 transaction address ros transaction addres s, ad [31:0] during second address phase of dac transaction reset to 0 7.4.112 reserved register ? offset 14ch 7.4.113 vc capability id register ? offset 150h bit function type description 15:0 vc capability id ro reset to 0002h
PI7C9X130 pci express to pci-x bridge page 77 of 157 pericom semiconductor september 2007 - rev 1.2 7.4.114 vc capability version register ? offset 150h bit function type description 19:16 vc capability version ro reset to 1h 7.4.115 next capability offs et register ? offset 150h bit function type description 31:20 next capability offset ro next capability offset ? the end of capabilities reset to 0 7.4.116 port vc capability register 1 ? offset 154h bit function type description 2:0 extended vc count ro reset to 0 3 reserved ro reset to 0 6:4 low priority extended vc count ro reset to 0 7 reserved ro reset to 0 9:8 reference clock ro reset to 0 11:10 port arbitration table entry size ro reset to 0 31:12 reserved ro reset to 0 7.4.117 port vc capability register 2 ? offset 158h bit function type description 7:0 vc arbitration capability ro reset to 0 23:8 reserved ro reset to 0 31:24 vc arbitration table offset ro reset to 0 7.4.118 port vc control register ? offset 15ch bit function type description 0 load vc arbitration table ro reset to 0 3:1 vc arbitration select ro reset to 0 15:4 reserved ro reset to 0 7.4.119 port vc status register ? offset 15ch bit function type description 16 vc arbitration table status ro reset to 0 31:17 reserved ro reset to 0
PI7C9X130 pci express to pci-x bridge page 78 of 157 pericom semiconductor september 2007 - rev 1.2 7.4.120 vc0 resource capbilit y register ? offset 160h bit function type description 7:0 port arbitration capability ro reset to 0 13:8 reserved ro reset to 0 14 advanced packet switching ro reset to 0 15 reject snoop transactions ro reset to0 22:16 maximum time slots ro reset to 0 23 reserved ro reset to 0 31:24 port arbitration table offset ro reset to 0 7.4.121 vc0 resource contro l register ? offset 164h bit function type description 7:0 tc / vc map ro reset to 1 7:1 tc / vc map rw reset to 7fh 15:8 reserved ro reset to 0 16 load port arbitration table ro reset to 0 19:17 port arbitration select ro reset to 0 23:20 reserved ro reset to 0 26:24 vc id ro reset to 0 30:27 reserved ro reset to 0 31 vc enable ro reset to 1 7.4.122 vc0 resource status register ? offset 168h bit function type description 0 port arbitration table 1 ro reset to 0 1 vc0 negotiation pending ro reset to 0 31:2 reserved ro reset to 0 7.4.123 reserved registers ? offset 16ch to 2fch 7.4.124 extended gpio data and c ontrol register ? offset 300h bit function type description 2:0 extended gpio output rwc gpio [6:4] as output, write 1 to clear reset to 0 5:3 extended gpio output rws gpio [6:4] as output, write 1 to set reset to 0 8:6 extended gpio output enable rwc gpio [6:4] enable, write 1 to clear reset to 0
PI7C9X130 pci express to pci-x bridge page 79 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 11:9 extended gpio output enable rws gpio [6:4] enable, write 1 to set reset to 0 14:12 extended gpio input ro gpio [6:4] as input reset to 0 31:16 reserved ro reset to 0 7.4.125 extra gpi/gpo dat a and control regi ster ? offset 304h bit function type description 3:0 extra gpo rwc gpo [3:0], write 1 to clear reset to 0 7:4 extra gpo rws gpo [3:0], write 1 to set reset to 0 11:8 extra gpo enable rwc gpo [3 :0] enable, write 1 to clear reset to 0 15:12 extra gpo enable rws gpo [3:0] enable, write 1 to set reset to 0 19:16 extra gpi ro extra gpi [3:0] data register reset to 0 31:20 reserved ro reset to 0 7.4.126 reserved registers ? offset 308h to 30ch 7.4.127 replay and acknowledge latency timers ? offset 310h bit function type description 11:0 replay timer rw replay timer reset to 0 12 replay timer enable rw replay timer enable reset to 0 15:13 reserved ro reset to 0 29:16 acknowledge latency timer rw acknowledge latency timer reset to 0 30 acknowledge latency timer enable ro acknowledge latency timer enable reset to 0 31 reserved ro reset to 0 7.4.128 reserved registers ? offset 314h to ffch
PI7C9X130 pci express to pci-x bridge page 80 of 157 pericom semiconductor september 2007 - rev 1.2 7.5 pci configuration reg isters for non-transparent bridge mode the following section describes the configuration sp ace when the device is in non-transparent bridge mode. the descriptions for different register type are listed as follow: register type descriptions ro read only ros read only and sticky rw read/write rwc read/write ?1? to clear rws read/write and sticky rwcs read/write ?1? to clear and sticky 7.5.1 vendor id ? offset 00h bit function type description 15:0 vendor id ro identifies pericom as the vendor of this device. returns 12d8h when read. 7.5.1 device id ? offset 00h bit function type description 31:16 device id ro identifies this device as the PI7C9X130. returns e130 when read. 7.5.2 primary command register ? offset 04h bit function type description 0 i/o space enable rw 0: ignore i/ o transactions on the primary interface 1: enable response to memory tr ansactions on the primary interface reset to 0 1 memory space enable rw 0: ignore memory read tran sactions on the primary interface 1: enable memory read tran sactions on the primary interface reset to 0 2 bus master enable rw 0: do not initiate memo ry or i/o transactions on the primary interface and disable response to memory and i/o tr ansactions on the secondary interface 1: enable the PI7C9X130 to operate as a master on the primary interfaces for memory and i/o transactions forwarded from the secondary interface. if the primary of the reverse bridge is pci-x mode, the PI7C9X130 is allowed to initiate a split completion transacti on regardless of the status bit. reset to 0 3 special cycle enable ro 0: bridge does not respond as a target to special cycle transactions, so this bit is defined as read-only and must return 0 when read reset to 0 4 memory write and invalidate enable ro 0: PI7C9X130 does not originate a me mory write and invalidate transaction. implements this bit as read-only and re turns 0 when read (unless forwarding a transaction for another master). this bit will be ignored in pci-x mode. reset to 0
PI7C9X130 pci express to pci-x bridge page 81 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 5 vga palette snoop enable ro 0: ignore vga palette snoop access on the primary reset to 0 6 parity error response enable rw 0: may ignore any parity error that is detected and take its normal action 1: this bit if set, enables the setting of master data par ity error bit in the status register when poisoned tlp received or parity error is detected and takes its normal action reset to 0 7 wait cycle control ro wait cycle control not supported reset to 0 8 primary serr_l enable bit rw 0: disable 1: enable PI7C9X130 in forward bridge mode to report non-fatal or fatal error message to the root complex. also, in reverse bridge mode to assert serr_l on the primary interface reset to 0 9 fast back-to-back enable ro fast back-to-back enable not supported reset to 0 10 primary interrupt disable ro / rw 0: intx interrupt messages can be generated 1: prevent intx messages to be gene rated and any asserted intx interrupts will be released. reset to 0 15:11 reserved ro reset to 00000 7.5.3 primary status register ? offset 04h bit function type description 18:16 reserved ro reset to 000 19 primary interrupt status ro 0: no intx interrupt message request pending in PI7C9X130 primary 1: intx interrupt message reque st pending in PI7C9X130 primary reset to 0 20 capability list capable ro 1: PI7C9X130 supports the capability list (offset 34h in the pointer to the data structure) reset to 1 21 66mhz capable ro this bit applies to reverse bridge only. 1: 66mhz capable reset to 0 when forward bridge or 1 when reverse bridge. 22 reserved ro reset to 0 23 fast back-to-back capable ro this bit applies to reverse bridge only. 1: enable fast back-to-back transactions reset to 0 when forward bridge or 1 when reverse bridge with primary bus in pci mode
PI7C9X130 pci express to pci-x bridge page 82 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 24 master data parity error detected rwc bit set if its parity erro r enable bit is set and either of the conditions occurs on the primary: forward bridge ? ? receives a completion marked poisoned ? poisons a write request reverse bridge ? ? detected parity error when receivi ng data or split response for read ? observes p_perr_l asserted when sending data or receiving split response for write ? receives a split completion message indicating data parity error occurred for non-posted write reset to 0 26:25 devsel_l timing (medium decode) ro these bits apply to reverse bridge only. 00: fast devsel_l decoding 01: medium devsel_l decoding 10: slow devsel_l decoding 11: reserved reset to 00 when forward bridge or 01 when reverse bridge. 27 signaled target abort rwc forward bridge ? this bit is set when PI7C9X130 completes a request using completer abort status on the primary reverse bridge ? this bit is set to indicate a target abort on the primary reset to 0 28 received target abort rwc forward bridge ? this bit is set when bridge receives a completion with completer abort completion status on the primary reverse bridge ? this bit is set when PI7C9X130 detects a target abort on the primary reset to 0 29 received master abort rwc forward bridge ? this bit is set when PI7C9X130 r eceives a completion with unsupported request completion status on the primary reverse bridge ? this bit is set when PI7C9X130 detects a master abort on the primary 30 signaled system error rwc forward bridge ? this bit is set when PI7C9X130 sends an err_fatal or err_non_fatal message on the primary reverse bridge ? this bit is set when PI7C9X130 asserts serr_l on the primary reset to 0 31 detected parity error rwc forward bridge ? this bit is set when poisoned tlp is detected on the primary reverse bridge ? this bit is set when address or data parity error is detected on the primary reset to 0 7.5.4 revision id register ? offset 08h bit function type description 7:0 revision ro reset to 00000000
PI7C9X130 pci express to pci-x bridge page 83 of 157 pericom semiconductor september 2007 - rev 1.2 7.5.5 class code regi ster ? offset 08h bit function type description 15:8 programming interface ro subtractive decoding of non-tr ansparent pci bridge not supported reset to 00000000 23:16 sub-class code ro sub-class code 10000000: other bridge reset to 10000000 31:24 base class code ro base class code 00000110: bridge device reset to 00000110 7.5.6 primary cache line size register ? offset 0ch bit function type description 1:0 reserved ro 00: cache line size of 1 dw and 2 dw are not supported reset to 00 2 cache line size rw 1: cache line size = 4 double words reset to 0 3 cache line size rw 1: cache line size = 8 double words reset to 0 4 cache line size rw 1: cache line size = 16 double words reset to 0 5 cache line size rw 1: cache line size = 32 double words 7:6 reserved ro bit [7:6] not supported reset to 00 7.5.7 primary latency timer register ? offset 0ch bit function type description 15:8 primary latency timer ro / rw 8 bits of primary latency timer in pci/pci-x forward bridge ? ro with reset to 00h reverse bridge ? rw with reset to 00h in pci mode or 40h in pci-x mode 7.5.8 primary header type register ? offset 0ch bit function type description 22:16 other bridge configuration ro type-0 header format configuration (10 ? 3fh) reset to 0000000 23 single function device ro 0: indicates single function device reset to 0
PI7C9X130 pci express to pci-x bridge page 84 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 31:24 reserved ro reset to 00h 7.5.9 primary csr and memory 0 base address register ? offset 10h bit function type description 0 space indicator ro 0: memory space 1: io space reset to 0 2:1 address type ro 00: 32- bit address decode range 01: 64-bit address decode range 10 and 11: reserved reset to 00 3 prefetchable control ro 0: memory space is non-prefetchable 1: memory space is prefetchable reset to 0 11:4 reserved ro reset to 0 31:12 base address rw/ro the size and type of this ba se address register are defined from downstream memory 0 setup register (offset 9ch) , which can be initialized by eeprom (i2c) or sm bus or local pr ocessor. the range of this register is from 4kb to 2gb. the lower 4kb if this address reange map to the PI7C9X130 csrs into memory space. the remaining space is this range above 4kb, if any, specifies a range for forwarding downstream memory transactions. pi7x9x110a uses downstream memory 0 translated base register (offset 98h) to formulate direct address translation. if a bit in the setup register is set to one, then the correspondent bit of this register will be changed to rw. reset to 00000h 7.5.10 primary csr io base ad dress register ? offset 14h bit function type description 0 space indicator ro 0: memory space 1: io space reset to 1 7:1 reserved ro reset to 0 31:8 base address ro/rw this base address regi ster maps to PI7C9X130 primary io space. the maximum size is 256 bytes. reset to 00000000h 7.5.11 downstream io or memory 1 ba se address register ? offset 18h bit function type description 0 space indicator ro 0: memory space 1: io space reset to 0 2:1 address type ro 00: 32- bit address decode range 01: 64-bit address decode range 10 and 11: reserved reset to 00
PI7C9X130 pci express to pci-x bridge page 85 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 3 prefetchable control ro 0: memory space is non-prefetchable 1: memory space is prefetchable reset to 0 11:4 reserved ro reset to 0 31:12 base address rw/ro the size and type of this ba se address register are defined from downstream io or memory 1 setup register (offs et ach), which can be initialized by eeprom (i2c) or sm bus or local processor. writing a zero to bit [31] of the setup register to disable this register . the range of this register is from 4kb to 2gb for memory space or from 64b to 256b for io space. pi7x9x110a uses downstream io or memory 1 transl ated base register (offset a8h) to formulate direct address translation. if a bit in the setup register is set to one, then the correspondent bit of this register will be changed to rw. reset to 00000h 7.5.12 downstream memory 2 base add ress register ? offset 1ch bit function type description 0 space indicator ro 0: memory space 1: io space reset to 0 2:1 address type ro 00: 32- bit address decode range 01, 10 and 11: reserved reset to 00 3 prefetchable control ro 0: memory space is non-prefetchable 1: memory space is prefetchable reset to 0 11:4 reserved ro reset to 0 31:12 base address rw/ro the size and type of this ba se address register are defined from downstream memory 2 setup register (csr offs et 00ch), which can be initialized by eeprom (i2c) or sm bus or local processor. writing a zero to bit [31] of the setup register to disable this register . the range of this register is from 4kb to 2gb for memory space. pi7x9x110a uses downstream memory 2 translated base register (csr offs et 008h) to formulate direct address translation. if a bit in the setup regist er is set to one, then the correspondent bit of this register will be changed to rw. reset to 00000h 7.5.13 downstream memory 3 base address register ? offset 20h bit function type description 0 space indicator ro 0: memory space 1: io space reset to 0 2:1 address type ro 00: 32- bit address decode range 01: 64-bit address decode range 10 and 11: reserved reset to 00 3 prefetchable control ro 0: memory space is non-prefetchable 1: memory space is prefetchable reset to 0 11:4 reserved ro reset to 0
PI7C9X130 pci express to pci-x bridge page 86 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 31:12 base address rw/ro the size and type of this ba se address register are defined from downstream memory 3 setup register (csr offs et 014h), which can be initialized by eeprom (i2c) or sm bus or local processor. writing a zero to bit [31] of the setup registers (csr offset 014h and 018h) to disable this register. the range of this register is from 4kb to 9eb for memory space. PI7C9X130 uses memory 3 translated base register (c sr offset 010h) to formulate direct address translation when 32-bit addressing programmed. when 64-bit addressing programmed, no address transla tion is performed. if a bit in the setup register is set to one, then the co rrespondent bit of this register will be changed to rw. reset to 00000h 7.5.14 downstream memory 3 upper base address register ? offset 24h bit function type description 31:0 base address ro/rw the size of this base addre ss register is defined fr om downstream memory 3 upper 32-bit setup register (csr offs et 018h), which can be initialized by eeprom (i2c) or sm bus or local processor. writing a zero to bit [31] of the setup registers (csr offset 018h) to disable this register. this register defines the upper 32 bits of a memo ry range for downstream forwarding memory. if a bit in the setup register is set to one, then the correspondent bit of this register will be changed to rw. reset to 00000000h 7.5.15 reserved register ? offset 28h 7.5.16 subsystem id and subsystem ven dor id register ? offset 2ch bit function type description 15:0 subsystem vendor id ro identify the vendor id for add-in card or subsystem reset to 0000h 31:16 subsystem id ro identify the vendor speci fic device id for add-in card or subsystem reset to 0000h 7.5.17 reserved register ? offset 30h 7.5.18 capability pointer ? offset 34h bit function type description 7:0 capability pointer ro capability pointer to 80h reset to 80h 31:8 reserved ro reset to 0
PI7C9X130 pci express to pci-x bridge page 87 of 157 pericom semiconductor september 2007 - rev 1.2 7.5.19 expansion rom base addr ess register ? offset 38h bit function type description 31:0 expansion rom base address ro expansion rom not supported. reset to 00000000h 7.5.20 primary interrupt line register ? offset 3ch bit function type description 7:0 primary interrupt line rw these bits apply to reverse bridge only. for initialization code to program to tell which input of the interrupt controller the bridge?s inta_l in connected to. reset to 00000000 7.5.21 primary interrupt pin register ? offset 3ch bit function type description 15:8 primary interrupt pin ro these bits apply to reverse bridge only. 00000001: designates interrupt pin inta_l is used reset to 00h when forward mode or 01h when reverse mode. 7.5.22 primary minimum grant register ? offset 3ch bit function type description 23:16 primary minimum grant ro this register is valid only in reverse bridge mode. it specifies how long of a burst period that PI7C9X130 needs on the primary bus in the units of ? microseconds. reset to 0 7.5.23 primary maximum latn ecy timer ? offset 3ch bit function type description 31:24 primary maximum latency timer ro this register is valid only in reverse bridge mode. it speci fies how often that PI7C9X130 needs to gain access to the primary bus in units of ? microseconds. reset to 0
PI7C9X130 pci express to pci-x bridge page 88 of 157 pericom semiconductor september 2007 - rev 1.2 7.5.24 pci data buffering contro l register ? offset 40h bit function type description 0 secondary internal arbiter?s park function rw 0: park to the last master 1: park to PI7C9X130 secondary port reset to 0 1 memory read prefetching dynamic control disable rw 0: enable memory read prefetchi ng dynamic control for pci to pcie read 1: disable memory read prefetching dynamic control for pci to pcie read reset to 0 2 completion data prediction control rw 0: enable completion data pr ediction for pci to pcie read. 1: disable completion data prediction reset to 0 3 reserved ro reset to 0 5:4 pci read multiple prefetch mode rw these two bits are ignored in pci-x mode 00 : one cache line prefetch if memory read multiple address is in prefetchable range at the pci interface 01 : full prefetch if address is in pref etchable range at pci interface, and the PI7C9X130 will keep remaining data afte r it disconnects the external master during burst read with read multiple command until the discard timer expires 10 : full prefetch if address is in prefetchable range at pci interface 11 : full prefetch if address is in pref etchable range at pci interface and the PI7C9X130 will keep remaining data afte r the read multiple is terminated either by an external master or by the PI7C9X130, until the discard time expires reset to 10 7:6 pci read line prefetch mode rw these two bits are ignored in pci-x mode 00 : once cache line prefetch if memory read address is in prefetchable range at pci interface 01 : full prefetch if address is in pref etchable range at pci interface and the PI7C9X130 will keep remaining data afte r it is disconnected by an external master during burst read with read lin e command, until discard timer expires 10 : full prefetch if memory read line address is in prefetchable range at pci interface 11 : full prefetch if address is in pref etchable range at pci interface and the PI7C9X130 will keep remaining data after th e read line is terminated either by an external master or by the pi7c 9x130, until the discard timer expires reset to 00 9:8 pci read prefetch mode rw 00 : one cache line prefetch if memory read address is in prefetchable range at pci interface 01 : reserved 10 : full prefetch if memory read addr ess is in prefetchable range at pci interface 11 : disconnect on the first dword reset to 00 10 pci special delayed read mode enable rw 0: retry any master at pci bus that repeats its transaction with command code changes. 1: allows any master at pci bus to change memory command code (mr, mrl, mrm) after it has received a retr y. the PI7C9X130 will complete the memory read transaction and return data back to the master if the address and byte enables are the same. reset to 0 11 reserved ro reset to 0
PI7C9X130 pci express to pci-x bridge page 89 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 14:12 maximum memory read byte count rw maximum byte count is used by the PI7C9X130 when generating memory read requests on the pcie link in response to a memory read initiated on the pci bus and bit [9:8], bit [7:6], and bit [5:4] are set to ?full prefetch?. 000: 512 bytes 001: 128 bytes 010: 256 bytes 011: 512 bytes 100: 1024 bytes 101: 2048 bytes 110: 4096 bytes 111: 512 bytes reset to 000 7.5.25 chip control 0 register ? offset 40h bit function type description 15 flow control update control rw 0: flow control is updated for every two credits available 1: flow control is updated for every on credit available reset to 0 16 pci retry counter status rwc 0: the pci retry counter has not expired since the last reset 1: the pci retry counter has expired since the last reset reset to 0 18:17 pci retry counter control rw 00: no expiration limit 01: allow 256 retries before expiration 10: allow 64k retries before expiration 11: allow 2g retrie s before expiration reset to 00 19 pci discard timer disable rw 0: enable the pci discard timer in conjunction with bit [27] offset 3ch (bridge control register) 1: disable the pci discard timer in conj unction with bit [27] offset 3ch (bridge control register) reset to 0 20 pci discard timer short duration rw 0: use bit [24] offset 3ch for forward bridge or bit [25] offset 3ch for reverse bridge to indicate how many pci cloc ks should be allowed before the pci discard timer expires 1: 64 pci clocks allowed before the pci discard timer expires reset to 0 22:21 configuration request retry timer counter value control rw 00: timer expires at 25us 01: timer expires at 0.5ms 10: timer expires at 5ms 11: timer expires at 25ms reset to 01 23 delayed transaction order control rw 0: enable out-of-order capability between delayed transactions 1: disable out-of-order capability between delayed transactions reset to 0 25:24 completion timer counter value control rw 00: timer expires at 50us 01: timer expires at 1ms 10: timer expires at 10ms 11: timer expires at 50ms reset to 01
PI7C9X130 pci express to pci-x bridge page 90 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 26 isochronous traffic support enable rw 0: all memory transactions from pci-x to pcie will be mapped to tc0 1: all memory transactions from pci-x to pcie will be mapped to traffic class defined in bit [29:27] of offset 40h. reset to 0 29:27 traffic class used for isochronous traffic rw this register can be programmed for virtual isochronous traffic mapping. by default, PI7C9X130 maps to traffic class 1. reset to 001 30 serial link interface loopback enable rw / ro 0: normal mode 1: enable serial link interface loopb ack mode (tx to rx) if tm0=low, tm1=high, tm2=high, msk_in=high, revrsb=high. pci transaction from pci bus will loop back to pci bus ro for forward bridge reset to 0 31 primary configuration access lockout ro / rw 0: PI7C9X130 configuration sp ace can be accessed from both interfaces 1: PI7C9X130 configuration space can only be accessed from the secondary interface. primary bus accessed receives completion with crs status for forward bridge, or target retry for reverse bridge reset to 1 if tm0 is high (the loca l host on secondary bus needs to program this bit to 0 after the secondary conf iguration programming is completed in non-transparent mode, otherwise there will be no configur ation access from primary interface) 7.5.26 secondary command register ? offset 44h bit function type description 0 i/o space enable rw 0: ignore i/o transactions on the secondary interface 1: enable response to memory tr ansactions on the secondary interface reset to 0 1 memory space enable rw 0: ignore memory read transactions on the secondary interface 1: enable memory read trans actions on the secondary interface reset to 0 2 bus master enable rw 0: do not initiate memory or i/o transactions on the secondary interface and disable response to memory and i/o tr ansactions on the secondary interface 1: enable the PI7C9X130 to operate as a master on the secondary interfaces for memory and i/o transactions forwarded from the secondary interface. if the secondary of the reverse bridge is pci-x mode, the PI7C9X130 is allowed to initiate a split completion transact ion regardless of the status bit. reset to 0 3 special cycle enable ro 0: bridge does not respond as a target to special cycle transactions, so this bit is defined as read-only and must return 0 when read reset to 0 4 memory write and invalidate enable ro 0: PI7C9X130 does not originate a me mory write and invalidate transaction. implements this bit as read-only and re turns 0 when read (unless forwarding a transaction for another master). this bit will be ignored in pci-x mode. reset to 0 5 vga palette snoop enable ro 0: ignore vga palette snoop access on the secondary reset to 0
PI7C9X130 pci express to pci-x bridge page 91 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 6 parity error response enable rw 0: may ignore any parity error that is detected and take its normal action 1: this bit if set, enables the setting of master data par ity error bit in the status register when poisoned tlp received or parity error is detected and takes its normal action reset to 0 7 wait cycle control ro wait cycle control not supported reset to 0 8 secondary serr_l enable bit rw 0: disable 1: enable PI7C9X130 in forward bridge mode to report non-fatal or fatal error message to the root complex. also, in reverse bridge mode to assert serr_l on the secondary interface reset to 0 9 fast back-to-back enable ro fast back-to-back enable not supported reset to 0 10 secondary interrupt disable ro / rw 0: intx interrupt messages can be generated 1: prevent intx messages to be gene rated and any asserted intx interrupts will be released. reset to 0 15:11 reserved ro reset to 00000 7.5.27 secondary status register ? offset 44h bit function type description 18:16 reserved ro reset to 000 19 secondary interrupt status ro 0: no intx interrupt message request pending in PI7C9X130 secondary 1: intx interrupt message reque st pending in PI7C9X130 secondary reset to 0 20 capability list capable ro 1: PI7C9X130 supports the capability list (offset 34h in the pointer to the data structure) reset to 1 21 66mhz capable ro this bit applies to forward bridge only. 1: 66mhz capable reset to 0 when reverse bridge or 1 when forward bridge. 22 reserved ro reset to 0 23 fast back-to-back capable ro this bit applies to forward bridge only. 1: enable fast back-to-back transactions reset to 0 when reverse bridge or 1 when forward bridge with secondary bus in pci mode 24 master data parity error detected rwc bit set if its parity erro r enable bit is set and either of the conditions occurs on the secondary: reverse bridge ? ? receives a completion marked poisoned ? poisons a write request forward bridge ? ? detected parity error when receivi ng data or split response for read ? observes p_perr_l asserted when sending data or receiving split response for write ? receives a split completion message indicating data parity error occurred for non-posted write reset to 0
PI7C9X130 pci express to pci-x bridge page 92 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 26:25 devsel_l timing (medium decode) ro these bits apply to forward bridge only. 00: fast devsel_l decoding 01: medium devsel_l decoding 10: slow devsel_l decoding 11: reserved reset to 00 when reverse bridge or 01 when forward bridge. 27 signaled target abort rwc reverse bridge ? this bit is set when PI7C9X130 completes a request using completer abort status on the secondary forward bridge ? this bit is set to indicate a target abort on the secondary reset to 0 28 received target abort rwc reverse bridge ? this bit is set when bridge receives a completion with completer abort completion status on the secondary forward bridge ? this bit is set when PI7C9X130 detects a target abort on the secondary reset to 0 29 received master abort rwc reverse bridge ? this bit is set when PI7C9X130 r eceives a completion with unsupported request completion status on the secondary forward bridge ? this bit is set when PI7C9X130 detects a master abort on the secondary 30 signaled system error rwc reverse bridge ? this bit is set when PI7C9X130 sends an err_fatal or err_non_fatal message on the secondary forward bridge ? this bit is set when PI7C9X130 asserts serr_l on the secondary reset to 0 31 detected parity error rwc reverse bridge ? this bit is set when poisoned tlp is detected on the secondary forward bridge ? this bit is set when address or data pa rity error is detected on the secondary reset to 0 7.5.28 arbiter enable register ? offset 48h bit function type description 0 enable arbiter 0 rw 0: disable arb itration for internal PI7C9X130 request 1: enable arbitration for internal PI7C9X130 request reset to 1 1 enable arbiter 1 rw 0: disable arbitration for master 1 1: enable arbitration for master 1 reset to 1 2 enable arbiter 2 rw 0: disable arbitration for master 2 1: enable arbitration for master 2 reset to 1 3 enable arbiter 3 rw 0: disable arbitration for master 3 1: enable arbitration for master 3 reset to 1
PI7C9X130 pci express to pci-x bridge page 93 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 4 enable arbiter 4 rw 0: disable arbitration for master 4 1: enable arbitration for master 4 reset to 1 5 enable arbiter 5 rw 0: disable arbitration for master 5 1: enable arbitration for master 5 reset to 1 6 enable arbiter 6 rw 0: disable arbitration for master 6 1: enable arbitration for master 6 reset to 1 7 enable arbiter 7 rw 0: disable arbitration for master 7 1: enable arbitration for master 7 reset to 1 8 enable arbiter 8 rw 0: disable arbitration for master 8 1: enable arbitration for master 8 reset to 1 7.5.29 arbiter mode regi ster ? offset 48h bit function type description 9 external arbiter bit ro 0: enable in ternal arbiter (if cfn_l is tied low) 1: use external arbiter (if cfn_l is tied high) reset to 0/1 according to what cfn_l is tied to 10 broken master timeout enable rw 0 : broken master timeout disable 1 : this bit enables the inte rnal arbiter to count 16 pci bus cycles while waiting for frame_l to become active when a device?s pci bus gnt_l is active and the pci bus is idle. if the broken master timeout expires, the pci bus gnt for the device is de-asserted. reset to 0 11 broken master refresh enable rw 0 : a broken master will be ignored foreve r after de-asserting its req_l for at least 1 clock 1 : refresh broken master state after all the other masters have been served once reset to 0 19:12 arbiter fairness counter rw 08h: these bits are the initialization va lue of a counter used by the internal arbiter. it controls the number of pc i bus cycles that the arbiter holds a device?s pci bus gnt active after detecting a pci bus req_l from another device. the counter is reloaded whenever a new pci bus gnt is asserted. for every new pci bus gnt, the counter is ar med to decrement when it detects the new fall of frame_l. if the arbiter fair ness counter is set to 00h, the arbiter will not remove a device?s pci bus gnt until the device has de-asserted its pci bus req. reset to 08h 20 gnt_l output toggling enable rw 0 : gnt_l not de-asserted after granted master assert frame_l 1 : gnt_l de-asserts for 1 clock after 2 cl ocks of the granted master asserting frame_l reset to 0 21 reserved ro reset to 0
PI7C9X130 pci express to pci-x bridge page 94 of 157 pericom semiconductor september 2007 - rev 1.2 7.5.30 arbiter priority register ? offset 48h bit function type description 22 arbiter priority 0 rw 0: low prio rity request to internal bridge 1: high priority request to internal bridge reset to 1 23 arbiter priority 1 rw 0: low priority request to master 1 1: high priority request to master 1 reset to 0 24 arbiter priority 2 rw 0: low priority request to master 2 1: high priority request to master 2 reset to 0 25 arbiter priority 3 rw 0: low priority request to master 3 1: high priority request to master 3 reset to 0 26 arbiter priority 4 rw 0: low priority request to master 4 1: high priority request to master 4 reset to 0 27 arbiter priority 5 rw 0: low priority request to master 5 1: high priority request to master 5 reset to 0 28 arbiter priority 6 rw 0: low priority request to master 6 1: high priority request to master 6 reset to 0 29 arbiter priority 7 rw 0: low priority request to master 7 1: high priority request to master 7 reset to 0 30 arbiter priority 8 rw 0: low priority request to master 8 1: high priority request to master 8 reset to 0 31 reserved ro reset to 0 7.5.31 secondary cache line si ze register ? offset 4ch bit function type description 1:0 reserved ro 00: cache line size of 1 dw and 2 dw are not supported reset to 00 2 cache line size rw 1: cache line size = 4 double words reset to 0 3 cache line size rw 1: cache line size = 8 double words reset to 0 4 cache line size rw 1: cache line size = 16 double words reset to 0 5 cache line size rw 1: cache line size = 32 double words reset to 0
PI7C9X130 pci express to pci-x bridge page 95 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 7:6 reserved ro bit [7:6] not supported reset to 00 7.5.32 secondary latency time r register ? offset 4ch bit function type description 15:8 secondary latency timer ro / rw 8 bits of secondary latency timer in pci/pci-x reverse bridge ? ro with reset to 00h forward bridge ? rw with reset to 00h in pci mode or 40h in pci-x mode 7.5.33 secondary header type register ? offset 4c bit function type description 22:16 other bridge configuration ro type-0 header format configuration (10 ? 3fh) reset to 0000000 23 single function device ro 0: indicates single function device reset to 0 31:24 reserved ro reset to 00h 7.5.34 secondary csr and memory 0 ba se address register ? offset 50h bit function type description 0 space indicator ro 0: memory space 1: io space reset to 0 2:1 address type ro 00: 32- bit address decode range 01: 64-bit address decode range 10 and 11: reserved reset to 00 3 prefetchable control ro 0: memory space is non-prefetchable 1: memory space is prefetchable reset to 0 11:4 reserved ro reset to 0 31:12 base address rw/ro the size and type of this base address register ar e defined from upstream memory 0 setup register (offset e4h) , which can be initialized by eeprom (i2c) or sm bus or local pr ocessor. the range of this register is from 4kb to 2gb. the lower 4kb if this address reange map to the PI7C9X130 csrs into memory space. the remaining space is this range above 4kb, if any, specifies a range for forwarding upstream memory transactions. pi7x9x110a uses upstream memory 0 translated base register (offset e0h) to formulate direct address translation. if a bit in the setup register is set to one, then the correspondent bit of this register will be changed to rw. reset to 00000h
PI7C9X130 pci express to pci-x bridge page 96 of 157 pericom semiconductor september 2007 - rev 1.2 7.5.35 secondary csr io base address register ? offset 54h bit function type description 0 space indicator ro 0: memory space 1: io space reset to 1 7:1 reserved ro reset to 0 31:8 base address ro/rw this base address register maps to PI7C9X130 secondary io space. the maximum size is 256 bytes. reset to 00000000h 7.5.36 upstream io or memory 1 ba se address register ? offset 58h bit function type description 0 space indicator ro 0: memory space 1: io space reset to 0 2:1 address type ro 00: 32- bit address decode range 01: 64-bit address decode range 10 and 11: reserved reset to 00 3 prefetchable control ro 0: memory space is non-prefetchable 1: memory space is prefetchable reset to 0 5:4 reserved ro reset to 0 31:6 base address rw/ro the size and type of this ba se address register are de fined from upstream io or memory 1 setup register (offset ech), which can be initialized by eeprom (i2c) or sm bus or local processor. writing a zero to bit [31] of the setup register to disable this register . the range of this register is from 4kb to 2gb for memory space or from 64b to 256b for io space. pi7x9x110a uses upstream io or memory 1 translated base register (offset e8h) to formulate direct address translation. if a bit in the setup register is set to one, then the correspondent bit of this register will be changed to rw. reset to 00000h 7.5.37 upstream memory 2 base address register ? offset 5ch bit function type description 0 space indicator ro 0: memory space 1: io space reset to 0 2:1 address type ro 00: 32- bit address decode range 01, 10 and 11: reserved reset to 00 3 prefetchable control ro 0: memory space is non-prefetchable 1: memory space is prefetchable reset to 0 13:4 reserved ro reset to 0
PI7C9X130 pci express to pci-x bridge page 97 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 31:14 base address rw/ro this base address regist er defines the address range for upstream memory transactions. PI7C9X130 uses a lookup ta ble to do the address translation. the address range of this register is from 16kb to 2gb in memory space. the address range is divided into 64 pages. the size of each page is defined by memory address forwarding control regist er (offset 6ah), which is initialized by eeprom (i2c) or sm bus or local processor. writing a zero to the bit [0] of the look up table entry can disable th e corresponding page of this register (csr offset 1ffh: 100h). the number of writeable bit may cha nge depending on the page size setup. reset to 00000h 7.5.38 upstream memory 3 base address register ? offset 60h bit function type description 0 space indicator ro 0: memory space 1: io space reset to 0 2:1 address type ro 00: 32- bit address decode range 01: 64-bit address decode range 10 and 11: reserved reset to 00 3 prefetchable control ro 0: memory space is non-prefetchable 1: memory space is prefetchable reset to 0 11:4 reserved ro reset to 0 31:12 base address rw/ro the size and type of this base address register ar e defined from upstream memory 3 setup register (csr offs et 034h), which can be initialized by eeprom (i2c) or sm bus or local processor. writing a zero to bit [31] of the setup registers (csr offset 034h and 038h) to disable this register. the range of this register is from 4kb to 9eb for memory space. PI7C9X130 uses this register and the upstream memory 3 upper base address register when 64-bit addressing programmed (bit [21] of offset 68h). when 64-bit addressing is disabled, no address translation is perf ormed. all 64-bit address transactions on the secondary interface falling outside of the downstream memory 3 address range are forwarded upstream. reset to 00000h 7.5.39 upstream memory 3 upper ba se address register ? offset 64h bit function type description 31:0 base address ro/rw the size of this base addr ess register is defined from upstream memory 3 upper 32-bit setup register (csr offs et 038h), which can be initialized by eeprom (i2c) or sm bus or local processor. writing a zero to bit [31] of the setup registers (csr offset 038h) to disable this register. this register defines the upper 32 bits of a memory range for upstream forwarding memory. PI7C9X130 uses this register and th e upstream memory 3 base address register when 64-bit addressing programm ed (bit [21] of offset 68h). when 64-bit addressing is disabled, no address translation is performed. all 64-bit address transactions on the seconda ry interface falling outside of the downstream memory 3 address range are forwarded upstream. reset to 00000000h
PI7C9X130 pci express to pci-x bridge page 98 of 157 pericom semiconductor september 2007 - rev 1.2 7.5.40 express transmitter/receiver control register ? offset 68h bit function type description 1:0 nominal driver current control rw 00: 20ma 01: 10ma 10: 28ma 11: reserved reset to 00 5:2 driver current scale multiple control rw 0000: 1.00 x nominal driver current 0001: 1.05 x nominal driver current 0010: 1.10 x nominal driver current 0011: 1.15 x nominal driver current 0100: 1.20 x nominal driver current 0101: 1.25 x nominal driver current 0110: 1.30 x nominal driver current 0111: 1.35 x nominal driver current 1000: 1.60 x nominal driver current 1001: 1.65 x nominal driver current 1010: 1.70 x nominal driver current 1011: 1.75 x nominal driver current 1100: 1.80 x nominal driver current 1101: 1.85 x nominal driver current 1110: 1.90 x nominal driver current 1111: 1.95 x nominal driver current reset to 0000 11:8 driver de-emphasis level control rw 0000: 0.00 db 0001: -0.35 db 0010: -0.72 db 0011: -1.11 db 0100: -1.51 db 0101: -1.94 db 0110: -2.38 db 0111: -2.85 db 1000: -3.35 db 1001: -3.88 db 1010: -4.44 db 1011: -5.04 db 1100: -5.68 db 1101: -6.38 db 1110: -7.13 db 1111: -7.96 db reset to 1000 13:12 transmitter termination control rw 00: 52 ohms 01: 57 ohms 10: 43 ohms 11: 46 ohms reset to 00 15:14 receiver termination control rw 00: 52 ohms 01: 57 ohms 10: 43 ohms 11: 46 ohms reset to 00
PI7C9X130 pci express to pci-x bridge page 99 of 157 pericom semiconductor september 2007 - rev 1.2 7.5.41 memory address forwarding co ntrol register ? offset 68h bit function type description 19:16 lookup table page size rw if bit [20] of offset 68h is low, then 0000: disable upstream memory 2 base address register 0001: 256 bytes 0010: 512 bytes 0011: 1k bytes 0100: 2k bytes 0101: 4k bytes 0110: 8k bytes 0111: 16k bytes 1000: 32k bytes 1001: 64k bytes 1010: 128k bytes 1011: 256k bytes 1100: 512k bytes 1101: 1m bytes 1110: 2m bytes 1111: 4m bytes if bit [20] of offset 68h is high, then 0000: disable upstream memory 2 base address register 0001: 8m bytes 0010: 16m bytes 0011: 32m bytes 01xx: disable upstream memory 2 base address register 1xxx: disable upstream memory 2 base address register reset to 0h 20 lookup table page size extension rw 0: normal lookup table page size 1: coarse lookup table page size reset to 0 21 upstream 64-bit address range enable rw 0: any 64-bit address transactions on secondary interface falling outside of downstream memory 3 address range are forwarded upstream 1: enable 64-bit address transaction forwarding upstream based on upstream memory 3 address range w ithout address translation reset to 0 29:22 reserved ro reset to 0 7.5.42 upstream memory write fragm ent control register ? offset 68h bit function type description 31:30 memory write fragment control rw upstream memory write fragment control 00: fragment at 32-byte boundary 01: fragment at 64-byte boundary 1x: fragement at 128-byte boundary reset to 00h
PI7C9X130 pci express to pci-x bridge page 100 of 157 pericom semiconductor september 2007 - rev 1.2 7.5.43 subsystem vendor id register ? offset 6ch bit function type description 15:0 subsystem vendor id ro subsystem vendor id identifies the particular add-in card or subsystem reset to 00h 7.5.44 subsystem id register ? offset 6ch bit function type description 31:16 subsystem id ro subsystem id identifie s the particular add-in card or subsystem reset to 00h 7.5.45 eeprom autoload control/status register ? offset 70h bit function type description 0 initiate eeprom read or write cycle rw this bit will be reset to 0 afte r the eeprom operation is finished 0:eeprom autoload disabled 0 -> 1: starts the eeprom read or write cycle reset to 0 1 control command for eeprom rw 0: read 1: write reset to 0 2 eeprom error ro 0: eeprom acknowledge is always received during the eeprom cycle 1: eeprom acknowledge is not received during eeprom cycle reset to 0 3 eprom autoload complete status ro 0: eeprom autoload is not successfully completed 1: eeprom autoload is successfully completed reset to 0 5:4 eeprom clock frequency control rw where pclk is 125mhz 00: pclk / 4096 01: pclk / 2048 10: pclk / 1024 11: pclk / 128 reset to 00 6 eeprom autoload control rw 0: enable ee prom autoload 1: disable eeprom autoload reset to 0 7 fast eeprom autoload control rw 0: normal speed of eeprom autoload 1: increase eeprom autoload by 32x reset to 0 8 eeprom autoload status ro 0: eeprom autoload is not on going 1: eeprom autoload is on going reset to 0 15:9 eeprom word address rw eeprom word address for eeprom cycle reset to 0000000
PI7C9X130 pci express to pci-x bridge page 101 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 31:16 eeprom data rw eeprom data to be written into the eeprom reset to 0000h 7.5.46 hot swap control and status register ? offset 74h bit function type description 7:0 capability id for hot swap ro reset to 06h when hot sawp is enab le (hs_en=1) or 00h when hot swap is disabled (hs_en=0) 15:8 next capability pointer ro reset to 00h to inidicate the end of the capability chain 16 device hiding arm rw device hiding armed when this bit is set to 1 reset to 0 17 enum_l signal mask rw enum_l signal is masked when this bit is set to 1 reset to 0 18 pending insertion or extraction rw when this bit is 1, ins is armed, or either ins or ext has a value of logic 1 when this bit is 0, ins is not armed or both ins and ext have a value of logic 0 reset to 0h 19 led on off rw when this bit is 1, led is on when this bit is 0, led is off reset to 0 21:20 programming interface ro pi=01 supports pi=00 plus device hidi ng and pending insertion or extraction bits reset to 01 22 ext for extraction rwc ext bit indicates enum_l stat us of extraction. when ext is 1, enum_l is asserted reset to 0 23 ins for insertion rwc ins bit indicates enum_l stat us of insertion. when ins is 1, enum_l is asserted reset to 1 31:24 reserved ro reset to 00h 7.5.47 bridge control and status register ? offset 78h bit function type description 1:0 reserved ro reset to 00 2 serr_l forward enable rw/ro 0 : disable the forwarding of serr_l to err_fatal and err_nonfatal 1 : enable the forwarding of serr_ l to err_fatal and err_nonfatal reset to 0 (forward bridge) ro bit for reverse bridge 3 secondary interface reset rw 0 : do not force the assertion of reset_l on secondary pci/pci-x bus in forward bridge mode, or do not generate a hot reset on the pci express link in reverse bridge mode 1 : force the assertion of reset_l on secondary pci/pci-x bus in forward bridge mode, or generate a hot reset on the pci express link in reverse bridge mode reset to 0
PI7C9X130 pci express to pci-x bridge page 102 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 5:4 vga enable rw 00 : vga memory and i/o transactions on the primary and secondary interfaces are ignored, unless decoded by other mechanism 01 : vga memory and i/o transactions on the primary interface are forwarded to secondary interface without address translation, but vga transactions on secondary interface are ignored 10 : vga memory and i/o transactions on the secondary interface are forwarded to primary interface wit hout address translation, but vga transactions on primary interface are ignored reset to 00 6 vga 16-bit decode rw 0: execute 10- bit address decodes on vga i/o accesses 1: execute 16-bit address decode on vga i/o accesses reset to 0 7 master abort mode rw 0: do not report master aborts (return ffffffffh on reads and discards data on write) 1: report master abort by signaling target abort if possible or by the assertion of serr_l (if enabled). reset to 0 8 primary master timeout rw 0: primary discard timer counts 2 15 pci clock cycles 1: primary discard timer counts 2 10 pci clock cycles forward bridge ? bit is ro and ignored by PI7C9X130 reset to 0 9 secondary master timeout rw 0: secondary discard timer counts 2 15 pci clock cycles 1: secondary discard timer counts 2 10 pci clock cycles reverse bridge ? bit is ro and ignored by PI7C9X130 reset to 0 10 master timeout status rwc bit is set when the discard timer expi res and a delayed comp letion is discarded at the pci interface for the forward or reverse bridge reset to 0 11 discard timer serr_l enable rw bit is set to enable to gene rate err_nonfatal or err_fatal for forward bridge, or assert serr_l for reverse bridge as a result of the expiration of the discard timer. it has no meaning if PI7C9X130 is in pci-x mode. reset to 0 7.5.48 gpio data and contro l register ? offset 78h bit function type description 15:12 gpio output write- 1-to-clear rw reset to 0h 19:16 gpio output write- 1-to-set rw reset to 0h 23:20 gpio output enable write-1-to-clear rw reset to 0h 27:24 gpio output enable write-1-to-set rw reset to 0h 31:28 gpio input data register ro reset to 0h
PI7C9X130 pci express to pci-x bridge page 103 of 157 pericom semiconductor september 2007 - rev 1.2 7.5.49 secondary interrupt line register ? offset 7ch bit function type description 7:0 secondary interrupt line rw these bits apply to forward bridge only. for initialization code to program to tell which input of the interrupt controller the bridge?s inta_l in connected to. reset to 00000000 7.5.50 secondary interrupt pi n register ? offset 7ch bit function type description 15:8 secondary interrupt pin ro these bits apply to forward bridge only. 00000001: designates interrupt pin inta_l is used reset to 00h when reverse mode or 01h when forward mode. 7.5.51 secondary minimum grant register ? offset 7ch bit function type description 23:16 secondary minimum grant ro this register is valid only in forward bridge mode. it specifies how long of a burst period that PI7C9X130 needs on the secondary bus in the units of ? microseconds. reset to 0 7.5.52 secondary maximum late ncy timer ? offset 7ch bit function type description 31:24 secondary maximum latency timer ro this register is valid only in forward bridge mode. it speci fies how often that PI7C9X130 needs to gain access to the primary bus in units of ? microseconds. reset to 0 7.5.53 pci-x capability id register ? offset 80h bit function type description 7:0 pci-x capability id ro pci-x capability id reset to 07h 7.5.54 next capability pointer register ? offset 80h bit function type description 15:8 next capability pointer ro point to power management reset to 90h
PI7C9X130 pci express to pci-x bridge page 104 of 157 pericom semiconductor september 2007 - rev 1.2 7.5.55 pci-x secondary status register ? offset 80h bit function type description 16 64-bit device on secondary bus interface ro 64-bit supported when dev64 is set to high reset to 1in forward bridge mode and de v64 is set to high or reset to 0 in reverse bridge mode 17 133mhz capable ro when this bit is 1, PI7C9X130 is 133mhz capable on its secondary bus interface reset to 1 in forward bridge mode or 0 in reverse bridge mode 18 split completion discarded ro / rwc this bit is a read-only and set to 0 in reverse bridge mode or is read-write in forward bridge mode when this is set to 1, a split completion has been discarded by PI7C9X130 at secondary bus because the requester did not accept the split completion transaction reset to 0 19 unexpected split completion rwc this bit is set to 0 in forward bridge mode or is read-write in reverse bridge mode when this bit is set to 1, an unexpected split completion has been received with the requester id equaled to the secondary bus number, device number, and function number at the pi7x9x130 secondary bus interface reset to 0 20 split completion overrun rwc when this bit is set to 1, a split co mpletion has been terminated by PI7C9X130 with either a retry or disconnect at the next adb due to the buffer full condition reset to 0 21 split request delayed rwc when this bit is set to 1, a split re quest is delayed because PI7C9X130 is not able to forward the split request tran saction to its secondary bus due to insufficient room within the limit specified in the split transaction commitment limit field of the downstream split transaction control register reset to 0 24:22 secondary clock frequency ro these bits are only meaningful in fo rward bridge mode. in reverse bridge mode, all three bits are set to zero. 000: conventional pci mode (minim um clock period not applicable) 001: 66mhz (minimum clock period is 15ns) 010: 100 to 133mhz (minimum clock period is 7.5ns) 011: reserved 1xx: reserved reset to 000 31:25 reserved ro 0000000 7.5.56 pci-x bridge status register ? offset 84h bit function type description 2:0 function number ro function number (ad [10: 8] of a type 0 configuration transaction) reset to 000
PI7C9X130 pci express to pci-x bridge page 105 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 7:3 device number ro device number (ad [15:11] of a type 0 configuration transaction) is assigned to the PI7C9X130 by the connection of system hardware. each time the PI7C9X130 is addressed by a configura tion write transaction, the bridge updates this register with the contents of ad [15:11] of the address phase of the configuration transaction, regardless of which register in the PI7C9X130 is addressed by the transaction. the pi7c 9x130 is addressed by a configuration write transaction if all of the following are true: ? the transaction uses a configuration write command ? idsel is asserted during the address phase ? ad [1:0] are 00 (type o configuration transaction) ? ad [10:8] of the configuration addr ess contain the appropriate function number reset to 11111 15:8 bus number ro additional address from which th e contents of the primary bus number register on type 1 configuration space header is read. the PI7C9X130 uses the bus number, device number, and function numb er fields to create a completer id when responding with a split completion to a read of an internal PI7C9X130 register. these fields are also used for cases when one interface is in conventional pci mode and the other is in pci-x mode. reset to 11111111 16 64-bit device on primary bus interface ro 64-bit supported when dev64 is set to high reset to 0 in forward bridge mode or in reverse bridge mode with req64_l is high at the de-assertion of reset_l or re set to 1 in reverse bridge mode with req64_l is low at the de-assertion of reset_l 17 133mhz capable ro when this bit is 1, pi7c 9x130 is 133mhz capable on its primary bus interface reset to 0 in forward bridge mode or 1 in reverse bridge mode 18 split completion discarded ro / rwc this bit is a read-only and set to 0 in reverse bridge mode or is read-write in forward bridge mode when this is set to 1, a split completion has been discarded by PI7C9X130 at primary bus because the requester did not accept the split completion transaction reset to 0 19 unexpected split completion rwc this bit is set to 0 in forward bridge mode or is read-write in reverse bridge mode when this is set to 1, an unexpected split completion has been received with the requester id equaled to the primary bus number, device number, and function number at the pi7x9x130 primary bus interface reset to 0 20 split completion overrun rwc when this bit is set to 1, a split co mpletion has been terminated by PI7C9X130 with either a retry or disconnect at the next adb due to the buffer full condition reset to 0 21 split request delayed rwc when this bit is set to 1, a split re quest is delayed because PI7C9X130 is not able to forward the split request tran saction to its primary bus due to insufficient room within the limit specified in the split transaction commitment limit field of the downstream split transaction control register reset to 0 31:22 reserved ro 0000000000
PI7C9X130 pci express to pci-x bridge page 106 of 157 pericom semiconductor september 2007 - rev 1.2 7.5.57 upstream split transaction register ? offset 88h bit function type description 15:0 upstream split transaction capability ro upstream split transaction capability sp ecifies the size of the buffer (in the unit of adqs) to store split completions fo r memory read. it applies to the requesters on the secondary bus in addressing the completers on the primary bus. the 0010h value shows that the buffer has 16 adqs or 2k bytes storage reset to 0010h 31:16 split transaction commitment limit rw upstream split transaction commitment limit indicates the cumulative sequence size of the commitment limit in units of adqs. this field can be programmed to any value or equal to th e content of the split capability field. for example, if the limit is set to ff ffh, PI7C9X130 is allowed to forward all split requests of any size regardless of the amount of buffer space available. the split transaction commitment limit is set to 0010h that is the same value as the split transaction capability. reset to 0010h 7.5.58 downstream split transact ion register ? offset 8ch bit function type description 15:0 downstream split transaction capability ro downstream split transaction capability specifies the size of the buffer (in the unit of adqs) to store split completions fo r memory read. it applies to the requesters on the primary bus in addre ssing the completers on the secondary bus. the 0010h value shows that the buffer has 16 adqs or 2k bytes storage reset to 0010h 31:16 downstream split transaction commitment limit rw downstream split transaction comm itment limit indicates the cumulative sequence size of the commitment limit in units of adqs. this field can be programmed to any value or equal to th e content of the split capability field. for example, if the limit is set to ff ffh, PI7C9X130 is allowed to forward all split requests of any size regardless of the amount of buffer space available. the split transaction commitment limit is set to 0010h that is the same value as the split transaction capability. reset to 0010h 7.5.59 power management id register ? offset 90h bit function type description 7:0 power management id ro power management id = 01h reset to 01h 7.5.60 next capability pointer register ? offset 90h bit function type description 15:8 next pointer ro next pointer (point to subsystem id and subsystem vendor id) reset to a8h
PI7C9X130 pci express to pci-x bridge page 107 of 157 pericom semiconductor september 2007 - rev 1.2 7.5.61 power management capabi lity register ? offset 90h bit function type description 18:16 version number ro version number that complie s with revision 2.0 of the pci power management interface specification. reset to 010 19 pme clock ro pme clock is not required for pme_l generation reset to 0 20 reserved ro reset to 0 21 device specific initialization (dsi) ro dsi ? no special initialization of th is function beyond the standard pci configuration header is required following transition to the d0 un-initialized state reset to 0 24:22 aux current ro 000: 0ma 001: 55ma 010: 100ma 011: 160ma 100: 220ma 101: 270ma 110: 320ma 111: 375ma reset to 001 25 d1 power management ro d1 power management is not supported reset to 0 26 d2 power management ro d2 power management is not supported reset to 0 31:27 pme_l support ro pme_l is supported in d3 cold, d3 hot, and d0 states. reset to 11001 7.5.62 power management control and status register ? offset 94h bit function type description 1:0 power state rw power state is used to determ ine the current power state of PI7C9X130. if a non-implemented state is written to th is register, PI7C9X130 will ignore the write data. when present state is d3 and changing to d0 state by programming this register, the power state change ca uses a device reset without activating the reset_l of pci/pci-x bus interface 00: d0 state 01: d1 state not implemented 10: d2 state not implemented 11: d3 state reset to 00 7:2 reserved ro reset to 000000 8 pme enable rws 0: pme_l assertion is disabled 1: pme_l assertion is enabled reset to 0 12:9 data select ro data re gister is not implemented reset to 0000
PI7C9X130 pci express to pci-x bridge page 108 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 14:13 data scale ro data re gister is not implemented reset to 00 15 pme status rwcs pme_l is supported reset to 0 7.5.63 pci-to-pci bridge support ex tension register ? offset 94h bit function type description 21:16 reserved ro reset to 000000 22 b2/b3 support ro b2 / b3 not support for d3hot reset to 0 23 pci bus power/clock control ro pci bus power/clock disabled reset to 0 31:24 data register ro data register is not implemented reset to 00h 7.5.64 downstream memory 0 translat ed base register ? offset 98h bit function type description 11:0 reserved ro reset to 000h 31:12 downstream memory 0 translated base rw define the translated base address for downstream memory transactions whose initiator addresses fall into downstream memory 0 (above lower 4k boundary) address range. the number of bits th at are used for translated base is determined by its setup register (offset 9ch) reset to 00000h 7.5.65 downstream memory 0 se tup register ? offset 9ch bit function type description 0 type selector ro 0: memory space is requested reset to 0 2:1 address type ro (ws) 00: 32-bit address space 01: 64-bit address space reset to 00 3 prefetchable control ro (ws) 0: non-prefetchable 1: prefetchable reset to 0 11:4 reserved ro reset to 00h 30:12 base address register size ro (ws) 0: set the corresponding bit in th e base address register to read only. 1: set the corresponding bit in the base a ddress register to read/write in order to control the size of the address range. reset to 7ffffh 31 base address register enable ro (ws) always set to 1 when a bus master attempts to write a ze ro to this bit. PI7C9X130 returns bit [31:12] as fffffh (for 4kb size). reset to 1
PI7C9X130 pci express to pci-x bridge page 109 of 157 pericom semiconductor september 2007 - rev 1.2 7.5.66 capability id register ? offset a0h bit function type description 7:0 capability id ro capability id for si reset to 04h 7.5.67 next pointer register ? offset a0h bit function type description 15:8 next pointer ro next pointer ? poi nts to pci express capabilities register reset to b0h 7.5.68 slot number register ? offset a0h bit function type description 20:16 expansion slot number rw expansion slot number reset to 00000 21 first in chassis rw first in chassis reset to 0 23:22 reserved ro reset to 00 7.5.69 chassis number register ? offset a0h bit function type description 31:24 chassis number rw chassis number reset to 00h 7.5.70 secondary clock and clkrun co ntrol register ? offset a4h bit function type description 1:0 clkout0 enable rw clkout (slot 0) enable 00: enable clkout0 01: enable clkout0 10: enable clkout0 11: disable clkout0 and driven low reset to 00 3:2 clkout1 enable rw clkout (slot 1) enable 00: enable clkout1 01: enable clkout1 10: enable clkout1 11: disable clkout1 and driven low reset to 00
PI7C9X130 pci express to pci-x bridge page 110 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 5:4 clkout2 enable rw clkout (slot 2) enable 00: enable clkout2 01: enable clkout2 10: enable clkout2 11: disable clkout2 and driven low reset to 00 7:6 clkout3 enable rw clkout (slot 3) enable 00: enable clkout3 01: enable clkout3 10: enable clkout3 11: disable clkout3 and driven low reset to 00 8 clkout4 enable rw clkout (device 1) enable 0: enable clkout4 1: disable clkout4 and driven low reset to 0 9 clkout5 enable rw clkout (device 2) enable 0: enable clkout5 1: disable clkout5 and driven low reset to 0 10 clkout6 enable rw clkout (the bridge) enable for forward bridge mode only 0: enable clkout6 1: disable clkout6 and driven low reset to 0 11 reserved ro reset to 0 12 reserved ro reset to 0 13 secondary clock stop status ro secondary clock stop status 0: secondary clock not stopped 1: secondary clock stopped reset to 0 14 secondary clkrun protocol enable rw 0: disable protocol 1: enable protocol reset to 0 15 clkrun mode rw 0: stop the secondary cl ock only when PI7C9X130 is at d3hot state 1: stop the secondary clock whenever the secondary bus is idle and there are no requests from the primary bus reset to 0 31:16 reserved ro reset 0000h 7.5.71 downstream i/o or memory 1 tr anslated base register ? offset a8h bit function type description 5:0 reserved ro reset to 000000
PI7C9X130 pci express to pci-x bridge page 111 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 31:6 downstream i/o or memory 1 translated base rw define the translated base address for downstream i/o or memory transactions whose initiator addresses fall into downst ream i/o or memory 1 address range. the number of bits that are used for tran slated base is determined by its setup register (offset ach) reset to 00000h 7.5.72 downstream i/o or memory 1 setup register ? offset ach bit function type description 0 type selector ro 0: memory space is requested reset to 0 2:1 address type ro (ws) 00: 32-bit address space 01: 64-bit address space reset to 00 3 prefetchable control ro (ws) 0: non-prefetchable 1: prefetchable reset to 0 5:4 reserved ro reset to 00 30:6 base address register size ro (ws) 0: set the corresponding bit in th e base address register to read only. 1: set the corresponding bit in the base a ddress register to read/write in order to control the size of the address range. if memory space is selected, bit [11:6] should be set to zeros. reset to 00000000h 31 base address register enable ro (ws) 0: disable this base address register 1: enable this base address register reset to 0 7.5.73 capability id register ? offset b0h bit function type description 7:0 pci express capability id ro pci express capability id reset to 10h 7.5.74 next capability pointer register ? offset b0h bit function type description 15:8 next item pointer ro next ite m pointer (points to vpd register) reset to d8h 7.5.75 pci express capability register ? offset b0h bit function type description 19:16 capability version ro reset to 1h
PI7C9X130 pci express to pci-x bridge page 112 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 23:20 device / port type ro 0000: pci express endpoint device 0001: legacy pci express endpoint device 0100: root port of pci express root complex 0101: upstream port of pci express switch 0110: downstream port of pci express switch 0111: pci express to pci bridge 1000: pci to pci express bridge others: reserved reset to 7h for forward bridge or 8h for reverse bridge 24 slot implemented ro reset to 0h for fo rward bridge or 1h for reverse bridge 29:25 interrupt message number ro reset to 0h 31:30 reserved ro reset to 0 7.5.76 device capability re gister ? offset b4h bit function type description 2:0 maximum payload size ro 000: 128 bytes 001: 256 bytes 010: 512 bytes 011: 1024 bytes 100: 2048 bytes 101: 4096 bytes 110: reserved 111: reserved reset to 001 4:3 phantom functions ro no phantom functions supported reset to 0 5 8-bit tag field ro 8-bit tag field supported reset to 1h 8:6 endpoint l0?s latency ro endpoint l0?s acceptable latency 000: less than 64 ns 001: 64 ? 128 ns 010: 128 ? 256 ns 011: 256 ? 512 ns 100: 512 ns ? 1 us 101: 1 ? 2 us 110: 2 ? 4 us 111: more than 4 us reset to 000 11:9 endpoint l1?s latency ro endpoint l1?s acceptable latency 000: less than 1 us 001: 1 ? 2 us 010: 2 ? 4 us 011: 4 ? 8 us 100: 8 ? 16 us 101: 16 ? 32 us 110: 32 ? 64 us 111: more than 64 us reset to 000 12 attention button present ro 0: if hot plug is disabled 1: if hot plug is enabled at forward bridge reset to 0 when hot-plug is disabled or 1 when hot-plug is enabled through strapping.
PI7C9X130 pci express to pci-x bridge page 113 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 13 attention indicator present ro 0: if hot plug is disabled 1: if hot plug is enable at forward bridge reset to 0 when hot-plug is disabled or 1 when hot-plug is enabled through strapping. 14 power indicator present ro 0: if hot plug is disabled 1: if hot plug is enable at forward bridge reset to 0 when hot-plug is disabled or 1 when hot-plug is enabled through strapping. 17:15 reserved ro reset to 000 25:18 captured slot power limit value ro these bits are set by the set_slot_power_limit message reset to 00h 27:26 captured slot power limit scale ro this value is set by the set_slot_power_limit message reset to 00 31:28 reserved ro reset to 0h 7.5.77 device control register ? offset b8h bit function type description 0 correctable error reporting enable rw reset to 0h 1 non-fatal error reporting enable rw reset to 0h 2 fatal error reporting enable rw reset to 0h 3 unsupported request reporting enable rw reset to 0h 4 relaxed ordering enable ro reset to 0h 7:5 max payload size rw this field sets the maximum tlp payload size for the bridge 000: 128 bytes 001: 256 bytes 010: 512 bytes 011:1024 bytes 100: 2048 bytes 101: 4096 bytes 110: reserved 111: reserved reset to 000 8 extended tag field enable rw reset to 0 9 phantom functions enable ro phantom functions not supported reset to 0 10 auxiliary power pm enable ro auxiliary power pm not supported reset to 0 11 no snoop enable ro PI7C9X130 never sets the no snoop attribute in the transaction it initiates reset to 0
PI7C9X130 pci express to pci-x bridge page 114 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 14:12 maximum read request size rw this field sets the maximum read request size for the device as a requester 000: 128 bytes 001: 256 bytes 010: 512 bytes 011: 1024 bytes 100: 2048 bytes 101: 4096 bytes 110: reserved 111: reserved reset to 2h 15 configuration retry enable rw reset to 0 7.5.78 device status register ? offset b8h bit function type description 16 correctable error detected rwc reset to 0 17 non-fatal error detected rwc reset to 0 18 fatal error detected rwc reset to 0 19 unsupported request detected rwc reset to 0 20 aux power detected ro reset to 1 21 transaction pending ro 0: no transaction is pending on transaction layer interface 1: transaction is pending on transaction layer interface reset to 0 31:22 reserved ro reset to 0000000000 7.5.79 link capability register ? offset bch bit function type description 3:0 maximum link speed ro indicates the maximum speed of the express link 0001: 2.5gb/s link reset to 1 9:4 maximum link width ro indicates the maximum width of the express link 000000: reserved 000001: x1 000010: x2 000100: x4 001000: x8 001100: x12 010000: x16 100000: x32 reset to 000001
PI7C9X130 pci express to pci-x bridge page 115 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 11:10 aspm support ro this field indicates the level of active state power management support 00: reserved 01: l0?s entry supported 10: reserved 11: l0?s and l1?s supported reset to 0 14:12 l0?s exit latency ro reset to 3h 17:15 l1?s exit latency ro reset to 0h 23:18 reserved ro reset to 0h 31:24 port number ro reset to 00h 7.5.80 link control register ? offset c0h bit function type description 1:0 aspm control rw this field controls th e level of aspm supported on the express link 00: disabled 01: l0?s entry enabled 10: l1?s entry enabled 11: l0?s and l1?s entry enabled reset to 00 2 reserved ro reset to 0 3 read completion boundary (rcb) ro read completion boundary not supported reset to 0 4 link disable ro / rw ro for forward bridge reset to 0 5 retrain link ro / rw ro for forward bridge reset to 0 6 common clock configuration rw reset to 0 7 extended sync rw reset to 0 15:8 reserved ro reset to 00h 7.5.81 link status register ? offset c0h bit function type description 19:16 link speed ro this field indicates the negotiated speed of the express link 001: 2.5gb/s link reset to 1h 25:20 negotiated link width ro 000000: reserved 000001: x1 000010: x2 000100: x4 001000: x8 001100: x12 010000: x16 100000: x32 reset to 000001 26 link train error ro reset to 0 27 link training ro reset to 0
PI7C9X130 pci express to pci-x bridge page 116 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 28 slot clock configuration ro reset to 1 31:29 reserved ro reset to 0 7.5.82 slot capability register ? offset c4h bit function type description 0 attention button present ro 0: if hot plug is disabled 1: if hot plug is enabled at reverse bridge reset to 0 when hot-plug is disabled or 1 when hot-plug is enabled through strapping. 1 power controller present ro reset to 0 2 mrl sensor present ro 0: if hot plug is disabled 1: if hot plug is enabled at reverse bridge reset to 0 when hot-plug is disabled or 1 when hot-plug is enabled through strapping. 3 attention indicator present ro 0: if hot plug is disabled 1: if hot plug is enabled at reverse bridge reset to 0 when hot-plug is disabled or 1 when hot-plug is enabled through strapping. 4 power indicator present ro 0: if hot plug is disabled 1: if hot plug is enabled at reverse bridge reset to 0 when hot-plug is disabled or 1 when hot-plug is enabled through strapping. 5 hot plug surprise ro reset to 0 6 hot plug capable ro 0: if hot plug is disabled 1: if hot plug is enabled at reverse bridge reset to 0 when hot-plug is disabled or 1 when hot-plug is enabled through strapping. 14:7 slot power limit value ro reset to 00h 16:15 slot power limit scale ro reset to 00 18:17 reserved ro reset to 00 31:19 physical slot number ro reset to 0 7.5.83 slot control register ? offset c8h bit function type description 0 attention button present enable rw reset to 0 1 power fault detected enable rw reset to 0 2 mrl sensor changed enable rw reset to 0 3 presence detect changed enable rw reset to 0 4 command completed interrupt enable rw reset to 0 5 hot plug interrupt enable rw reset to 0
PI7C9X130 pci express to pci-x bridge page 117 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 7:6 attention indicator control rw reset to 0 9:8 power indicator control rw reset to 0 10 power controller control rw reset to 0 15:11 reserved ro reset to 0 7.5.84 slot status register ? offset c8h bit function type description 16 attention button pressed ro reset to 0 17 power fault detected ro reset to 0 18 mrl sensor changed ro reset to 0 19 presence detect changed ro reset to 0 20 command completed ro reset to 0 21 mrl sensor state ro reset to 0 22 presence detect state ro reset to 0 31:23 reserved ro reset to 0 7.5.85 xpip configuration register 0 ? offset cch bit function type description 0 hot reset enable rw reset to 0 1 loopback function enable rw reset to 0 2 cross link function enable rw reset to 0 3 software direct to configuration state when in ltssm state rw reset to 0 4 internal selection for debug mode rw reset to 0 7:5 negotiate lane number of times rw reset to 3h 12:8 ts1 number counter rw reset to 10h 15:13 reserved ro reset to 0 31:16 ltssm enter l1 timer default value rw reset to 0400h 7.5.86 xpip configuration register 1 ? offset d0h bit function type description 9:0 l0?s lifetime timer rw reset to 0 15:10 reserved ro reset to 0 31:16 l1 lifetime timer rw reset to 0
PI7C9X130 pci express to pci-x bridge page 118 of 157 pericom semiconductor september 2007 - rev 1.2 7.5.87 xpip configuration register 2 ? offset d4h bit function type description 7:0 cdr recovery time (in fts units) rw reset to 54h 14:8 l0?s exit to l0 latency rw reset to 2h 15 reserved ro reset to 0 22:16 l1 exit to l0 latency rw reset to 19h 31:23 reserved ro reset to 0 7.5.88 capability id register ? offset d8h bit function type description 7:0 capability id for vpd register ro reset to 03h 7.5.89 next pointer register ? offset d8h bit function type description 15:8 next pointer ro next pointer (f0h, points to msi capabilities) reset to f0h 7.5.90 vpd register ? offset d8h bit function type description 17:16 reserved ro reset to 0 23:18 vpd address for read/write cycle rw reset to 0 30:24 reserved ro reset to 0 31 vpd operation rw 0: generate a read cycle fr om the eeprom at the vpd address specified in bits [7:2] of offset d8h. this b it remains at ?0? until eeprom cycle is finished, after which the bit is then set to ?1?. data for reads is available at register ech. 1: generate a write cycle to the eeprom at the vpd address specified in bits [7:2] of offset d8h. this bit remains at ?1? until eeprom cycle is finished, after which it is then cleared to ?0?. reset to 0 7.5.91 vpd data register ? offset dch bit function type description 31:0 vpd data rw vpd data (eeprom data [address + 0x40]) the least significant byte of this register corresponds to the byte of vpd at the address specified by the vpd address regist er. the data read form or written to this register uses the normal pci byte transfer capabilities. reset to 0
PI7C9X130 pci express to pci-x bridge page 119 of 157 pericom semiconductor september 2007 - rev 1.2 7.5.92 upstream memory 0 tran slated base - offset e0h bit function type description 11:0 reserved ro reset to 000h 31:12 downstream memory 0 translated base rw define the translated base address for upstream memory transactions whose initiator addresses fall into upstream memory 0 (above lower 4k boundary) address range. the number of bits th at are used for translated base is determined by its setup register (offset e4h) reset to 00000h 7.5.93 upstream memory 0 setu p register ? offset e4h bit function type description 0 type selector ro 0: memory space is requested reset to 0 2:1 address type ro (ws) 00: 32-bit address space 01: 64-bit address space reset to 00 3 prefetchable control ro (ws) 0: non-prefetchable 1: prefetchable reset to 0 11:4 reserved ro reset to 00h 30:12 base address register size ro (ws) 0: set the corresponding bit in th e base address register to read only. 1: set the corresponding bit in the base a ddress register to read/write in order to control the size of the address range. reset to 00000h 31 base address register enable ro (ws) always set to 1 when a bus master attempts to write a ze ro to this bit. PI7C9X130 returns bit [31:12] as fffffh (for 4kb size). reset to 1 7.5.94 upstream i/o or memory 1 transl ated base register ? offset e8h bit function type description 5:0 reserved ro reset to 000000 31:6 upstream i/o or memory 1 translated base rw define the translated base address for upstream i/o or memory transactions whose initiator addresses fall into upst ream i/o or memory 1 address range. the number of bits that are used for tran slated base is determined by its setup register (offset ech) reset to 00000h 7.5.95 upstream i/o or memory 1 setup register ? offset ech bit function type description 0 type selector ro 0: memory space is requested reset to 0
PI7C9X130 pci express to pci-x bridge page 120 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 2:1 address type ro (ws) 00: 32-bit address space 01: 64-bit address space reset to 00 3 prefetchable control ro (ws) 0: non-prefetchable 1: prefetchable reset to 0 5:4 reserved ro reset to 00 30:6 base address register size ro (ws) 0: set the corresponding bit in th e base address register to read only. 1: set the corresponding bit in the base a ddress register to read/write in order to control the size of the address range. if memory space is selected, bit [11:6] should be set to zeros. reset to 00000000h 31 base address register enable ro (ws) 0: disable this base address register 1: enable this base address register reset to 0 7.5.96 message signaled interrupts id register ? offset f0h bit function type description 7:0 capability id for msi registers ro reset to 05h 7.5.97 next capability pointer register ? offset f0h bit function type description 15:8 next pointer ro next pointer (00h indicates the end of capabilities) reset to 00h 7.5.98 message control register ? offset f0h bit function type description 16 msi enable rw 0: disable msi and default to intx for interrupt 1: enable msi for interrupt service and ignore intx interrupt pins 19:17 multiple message capable ro 000: 1 message requested 001: 2 messages requested 010: 4 messages requested 011: 8 messages requested 100: 16 messages requested 101: 32 messages requested 110: reserved 111: reserved reset to 000
PI7C9X130 pci express to pci-x bridge page 121 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 22:20 multiple message enable rw 000: 1 message requested 001: 2 messages requested 010: 4 messages requested 011: 8 messages requested 100: 16 messages requested 101: 32 messages requested 110: reserved 111: reserved reset to 000 23 64-bit address capable rw reset to 1 31:24 reserved ro reset to 00h 7.5.99 message address register ? offset f4h bit function type description 1:0 reserved ro reset to 00 31:2 system specified message address rw reset to 0 7.5.100 message upper address register ? offset f8h bit function type description 31:0 system specified message upper address rw reset to 0 7.5.101 message data register ? offset fch bit function type description 15:0 system specified message data rw reset to 0 31:16 reserved ro reset to 0 7.5.102 advance error report ing capability id register ? offset 100h bit function type description 15:0 advance error reporting capability id ro reset to 0001h 7.5.103 advance error report ing capability versi on register ? offset 100h bit function type description 19:16 advance error reporting capability version ro reset to 1h
PI7C9X130 pci express to pci-x bridge page 122 of 157 pericom semiconductor september 2007 - rev 1.2 7.5.104 next capability offs et register ? offset 100h bit function type description 31:20 next capability offset ro next capability offset (150h points to vc capability) reset to 150h 7.5.105 uncorrectable error stat us register ? offset 104h bit function type description 0 training error status rwcs reset to 0 3:1 reserved ro reset to 0 4 data link protocol error status rwcs reset to 0 11:5 reserved ro reset to 0 12 poisoned tlp status rwcs reset to 0 13 flow control protocol error status rwcs reset to 0 14 completion timeout status rwcs reset to 0 15 completer abort status rwcs reset to 0 16 unexpected completion status rwcs reset to 0 17 receiver overflow status rwcs reset to 0 18 malformed tlp status rwcs reset to 0 19 ecrc error status rwcs reset to 0 20 unsupported request error status rwcs reset to 0 31:21 reserved ro reset to 0 7.5.106 uncorrectable e rror mask register ? offset 108h bit function type description 0 training error mast rws reset to 0 3:1 reserved ro reset to 0 4 data link protocol error mask rws reset to 0 11:5 reserved ro reset to 0 12 poisoned tlp mask rws reset to 0 13 flow control protocol error mask rws reset to 0 14 completion timeout mask rws reset to 0 15 completion abort mask rws reset to 0 16 unexpected completion mask rws reset to 0 17 receiver overflow mask rws reset to 0 18 malformed tlp mask rws reset to 0 19 ecrc error mask rws reset to 0 20 unsupported request error mask rws reset to 0 31:21 reserved ro reset to 0
PI7C9X130 pci express to pci-x bridge page 123 of 157 pericom semiconductor september 2007 - rev 1.2 7.5.107 uncorrectable erro r severity register ? offset 10ch bit function type description 0 training error severity rws reset to 1 3:1 reserved ro reset to 0 4 data link protocol error severity rws reset to 1 11:5 reserved ro reset to 0 12 poisoned tlp severity rws reset to 0 13 flow control protocol error severity rws reset to 1 14 completion timeout severity rws reset to 0 15 completer abort severity rws reset to 0 16 unexpected completion severity rws reset to 0 17 receiver overflow severity rws reset to 1 18 malformed tlp severity rws reset to 1 19 ecrc error severity rws reset to 0 20 unsupported request error severity rws reset to 0 31:21 reserved ro reset to 0 7.5.108 correctable error status register ? offset 110h bit function type description 0 receiver error status rwcs reset to 0 5:1 reserved ro reset to 0 6 bad tlp status rwcs reset to 0 7 bad dllp status rwcs reset to 0 8 replay_num rollover status rwcs reset to 0 11:9 reserved ro reset to 0 12 replay timer timeout status rwcs reset to 0 31:13 reserved ro reset to 0 7.5.109 correctable error mask register ? offset 114h bit function type description 0 receiver error mask rws reset to 0 5:1 reserved ro reset to 0 6 bad tlp mask rws reset to 0 7 bad dllp mask rws reset to 0 8 replay_num rollover mask rws reset to 0 11:9 reserved ro reset to 0
PI7C9X130 pci express to pci-x bridge page 124 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 12 replay timer timeout mask rws reset to 0 31:13 reserved ro reset to 0 7.5.110 advanced error capabilities and control register ? offset 118h bit function type description 4:0 first error pointer ros reset to 0h 5 ecrc generation capable ro reset to 1 6 ecrc generation enable rws reset to 0 7 ecrc check capable ro reset to 1 8 ecrc check enable rws reset to 0 31:9 reserved ro reset to 0 7.5.111 header log regis ter 1 ? offset 11ch bit function type description 7:0 header byte 3 ros reset to 0 15:8 header byte 2 ros reset to 0 23:16 header byte 1 ros reset to 0 31:24 header byte 0 ros reset to 0 7.5.112 header log regi ster 2 ? offset 120h bit function type description 7:0 header byte 7 ros reset to 0 15:8 header byte 6 ros reset to 0 23:16 header byte 5 ros reset to 0 31:24 header byte 4 ros reset to 0 7.5.113 header log regi ster 3 ? offset 124h bit function type description 7:0 header byte 11 ros reset to 0 15:8 header byte 10 ros reset to 0 23:16 header byte 9 ros reset to 0 31:24 header byte 8 ros reset to 0 7.5.114 header log regi ster 4 ? offset 128h bit function type description 7:0 header byte 15 ros reset to 0 15:8 header byte 14 ros reset to 0 23:16 header byte 13 ros reset to 0 31:24 header byte 12 ros reset to 0
PI7C9X130 pci express to pci-x bridge page 125 of 157 pericom semiconductor september 2007 - rev 1.2 7.5.115 secondary uncorrectable error st atus register ? offset 12ch bit function type description 0 target abort on split completion status rwcs reset to 0 1 master abort on split completion status rwcs reset to 0 2 received target abort status rwcs reset to 0 3 received master abort status rwcs reset to 0 4 reserved ro reset to 0 5 unexpected split completion error status rwcs reset to 0 6 uncorrectable split completion message data error status rwcs reset to 0 7 uncorrectable data error status rwcs reset to 0 8 uncorrectable attribute error status rwcs reset to 0 9 uncorrectable address error status rwcs reset to 0 10 delayed transaction discard timer expired status rwcs reset to 0 11 perr_l assertion detected status rwcs reset to 0 12 serr_l assertion detected status rwcs reset to 0 13 internal bridge error status rwcs reset to 0 31:14 reserved ro reset to 0 7.5.116 secondary uncorrectable error mask register ? offset 130h bit function type description 0 target abort on split completion mask rws reset to 0 1 master abort on split completion mask rws reset to 0 2 received target abort mask rws reset to 0 3 received master abort mask rws reset to 1 4 reserved ro reset to 0 5 unexpected split completion error mask rws reset to 1 6 uncorrectable split completion message data error mask rws reset to 0
PI7C9X130 pci express to pci-x bridge page 126 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 7 uncorrectable data error mask rws reset to 1 8 uncorrectable attribute error mask rws reset to 1 9 uncorrectable address error mask rws reset to 1 10 delayed transaction discard timer expired mask rws reset to 1 11 perr_l assertion detected mask rws reset to 0 12 serr_l assertion detected mask rws reset to 1 13 internal bridge error mask rws reset to 0 31:14 reserved ro reset to 0 7.5.117 secondary uncorrectable error severity register ? offset 134h bit function type description 0 target abort on split completion severity rws reset to 0 1 master abort on split completion severity rws reset to 0 2 received target abort severity rws reset to 0 3 received master abort severity rws reset to 0 4 reserved ro reset to 0 5 unexpected split completion error severity rws reset to 0 6 uncorrectable split completion message data error severity rws reset to 1 7 uncorrectable data error severity rws reset to 0 8 uncorrectable attribute error severity rws reset to 1 9 uncorrectable address error severity rws reset to 1 10 delayed transaction discard timer expired severity rws reset to 0 11 perr_l assertion detected severity rws reset to 0 12 serr_l assertion detected severity rws reset to 1 13 internal bridge error severity rws reset to 0 31:14 reserved ro reset to 0
PI7C9X130 pci express to pci-x bridge page 127 of 157 pericom semiconductor september 2007 - rev 1.2 7.5.118 secondary error capability an d control register ? offset 138h bit function type description 4:0 secondary first error pointer row reset to 0 31:5 reserved ro reset to 0 7.5.119 secondary header log register ? offset 13ch ? 148h bit function type description 35:0 transaction attribute ros transaction attribute, cbe [3:0] and ad [31:0] during attribute phase reset to 0 39:36 transaction command lower ros transaction command lower, cbe [3:0] during first address phase reset to 0 43:40 transaction command upper ros transaction command upper, cbe [3:0 ] during second address phase of dac transaction reset to 0 63:44 reserved ros reset to 0 95:64 transaction address ros transaction addr ess, ad [31:0] during first address phase reset to 0 127:96 transaction address ros transaction addres s, ad [31:0] during second address phase of dac transaction reset to 0 7.5.120 reserved register ? offset 14ch 7.5.121 vc capability id register ? offset 150h bit function type description 15:0 vc capability id ro reset to 0002h 7.5.122 vc capability version register ? offset 150h bit function type description 19:16 vc capability version ro reset to 1h 7.5.123 next capability offs et register ? offset 150h bit function type description 31:20 next capability offset ro next capability offset ? the end of capabilities reset to 0
PI7C9X130 pci express to pci-x bridge page 128 of 157 pericom semiconductor september 2007 - rev 1.2 7.5.124 port vc capability register 1 ? offset 154h bit function type description 2:0 extended vc count ro reset to 0 3 reserved ro reset to 0 6:4 low priority extended vc count ro reset to 0 7 reserved ro reset to 0 9:8 reference clock ro reset to 0 11:10 port arbitration table entry size ro reset to 0 31:12 reserved ro reset to 0 7.5.125 port vc capability register 2 ? offset 158h bit function type description 7:0 vc arbitration capability ro reset to 0 23:8 reserved ro reset to 0 31:24 vc arbitration table offset ro reset to 0 7.5.126 port vc control register ? offset 15ch bit function type description 0 load vc arbitration table ro reset to 0 3:1 vc arbitration select ro reset to 0 15:4 reserved ro reset to 0 7.5.127 port vc status register ? offset 15ch bit function type description 16 vc arbitration table status ro reset to 0 31:17 reserved ro reset to 0 7.5.128 vc0 resource capbilit y register ? offset 160h bit function type description 7:0 port arbitration capability ro reset to 0 13:8 reserved ro reset to 0 14 advanced packet switching ro reset to 0 15 reject snoop transactions ro reset to0 22:16 maximum time slots ro reset to 0 23 reserved ro reset to 0 31:24 port arbitration table offset ro reset to 0
PI7C9X130 pci express to pci-x bridge page 129 of 157 pericom semiconductor september 2007 - rev 1.2 7.5.129 vc0 resource contro l register ? offset 164h bit function type description 7:0 tc / vc map ro reset to 1 7:1 tc / vc map rw reset to 7fh 15:8 reserved ro reset to 0 16 load port arbitration table ro reset to 0 19:17 port arbitration select ro reset to 0 23:20 reserved ro reset to 0 26:24 vc id ro reset to 0 30:27 reserved ro reset to 0 31 vc enable ro reset to 1 7.5.130 vc0 resource status register ? offset 168h bit function type description 0 port arbitration table 1 ro reset to 0 1 vc0 negotiation pending ro reset to 0 31:2 reserved ro reset to 0 7.5.131 reserved registers ? offset 16ch to 2fch 7.5.132 extended gpio data and c ontrol register ? offset 300h bit function type description 2:0 extended gpio output rwc gpio [6:4] as output, write 1 to clear reset to 0 5:3 extended gpio output rws gpio [6:4] as output, write 1 to set reset to 0 8:6 extended gpio output enable rwc gpio [6:4] enable, write 1 to clear reset to 0 11:9 extended gpio output enable rws gpio [6:4] enable, write 1 to set reset to 0 14:12 extended gpio input ro gpio [6:4] as input reset to 0 31:16 reserved ro reset to 0 7.5.133 extra gpi/gpo dat a and control regi ster ? offset 304h bit function type description 3:0 extra gpo rwc gpo [3:0], write 1 to clear reset to 0 7:4 extra gpo rws gpo [3:0], write 1 to set reset to 0 11:8 extra gpo enable rwc gpo [3 :0] enable, write 1 to clear reset to 0
PI7C9X130 pci express to pci-x bridge page 130 of 157 pericom semiconductor september 2007 - rev 1.2 bit function type description 15:12 extra gpo enable rws gpo [3:0] enable, write 1 to set reset to 0 19:16 extra gpi ro extra gpi [3:0] data register reset to 0 31:20 reserved ro reset to 0 7.5.134 reserved registers ? offset 308h to 30ch 7.5.135 replay and acknowledge latency timers ? offset 310h bit function type description 11:0 replay timer rw replay timer reset to 0 12 replay timer enable rw replay timer enable reset to 0 15:13 reserved ro reset to 0 29:16 acknowledge latency timer rw acknowledge latency timer reset to 0 30 acknowledge latency timer enable ro acknowledge latency timer enable reset to 0 31 reserved ro reset to 0 7.5.136 reserved registers ? offset 314h to ffch
PI7C9X130 pci express to pci-x bridge page 131 of 157 pericom semiconductor september 2007 - rev 1.2 7.6 control and status reg isters for non-transparent bridge mode control and status registers (csrs) can be accessed by memory or i/ o transactions from both primary and secondary ports. the csrs are defined and to be used along with configuration registers (see previous section 7.5 for details) for non-transparent bridge operations. register type descriptions ro read only ros read only and sticky rw read/write rwc read/write ?1? to clear rws read/write and sticky rwcs read/write ?1? to clear and sticky 7.6.1 reserved registers ? offset 000h to 004h 7.6.2 downstream memory 2 translat ed base register ? offset 008h bit function type description 11:0 reserved ro reset to 000h 31:12 downstream memory 2 translated base rw define the translated base address for downstream memory transactions whose initiator addresses fall into downstream memory 2 address range. the number of bits that are used for translated ba se is determined by its setup register (offset 00ch) reset to 00000h 7.6.3 downstream memory 2 se tup register ? offset 00ch bit function type description 0 type selector ro 0: memory space is requested reset to 0 2:1 address type ro (ws) 00: 32-bit address space 01: 64-bit address space reset to 00 3 prefetchable control ro (ws) 0: non-prefetchable 1: prefetchable reset to 0 11:4 reserved ro reset to 00 30:12 base address register size ro (ws) 0: set the corresponding bit in th e base address register to read only 1: set the corresponding bit in the base a ddress register to read/write in order to control the size of the address range reset to 00000h 31 base address register enable ro (ws) 0: disable this base address register 1: enable this base address register reset to 0
PI7C9X130 pci express to pci-x bridge page 132 of 157 pericom semiconductor september 2007 - rev 1.2 7.6.4 downstream memory 3 translat ed base register ? offset 010h bit function type description 11:0 reserved ro reset to 000000 31:12 downstream memory 3 translated base rw define the translated base address for downstream memory transactions whose initiator addresses fall into downstream memory 3 address range. the number of bits that are used for translated ba se is determined by its setup register (offset 014h) reset to 00000h 7.6.5 downstream memory 3 se tup register ? offset 014h bit function type description 0 type selector ro 0: memory space is requested reset to 0 2:1 address type ro (ws) 00: 32-bit address space 01: 64-bit address space reset to 00 3 prefetchable control ro (ws) 0: non-prefetchable 1: prefetchable reset to 0 11:4 reserved ro reset to 00 30:12 base address register size ro (ws) 0: set the corresponding bit in th e base address register to read only 1: set the corresponding bit in the base a ddress register to read/write in order to control the size of the address range reset to 00000h 31 base address register enable ro (ws) 0: disable this base address register 1: enable this base address register reset to 0 7.6.6 downstream memory 3 upper 32- bit setup register ? offset 018h bit function type description 30:0 base address register size rw 0: set the corresponding bit in the uppe r 32-bit base address register to read only 1: set the corresponding bit in the upper 32-bit base address register to read/write in order to contro l the size of the address range reset to 00000000h 31 base address register enable rw) 0: disable 64-bit base address register 1: enable 64-bit base address register reset to 0 7.6.7 reserved registers ? offset 01ch to 030h
PI7C9X130 pci express to pci-x bridge page 133 of 157 pericom semiconductor september 2007 - rev 1.2 7.6.8 upstream memory 3 setup register ? offset 034h bit function type description 0 type selector ro 0 : memory space is requested reset to 0 2:1 address type ro 00 : 32-bit address space 01 : 64-bit address space reset to 01 3 prefetchable control rw 0 : non-prefetchable 1 : prefetchable reset to 0 11:4 reserved ro reset to 00 31:12 base address register size rw 0 : set the corresponding bit in the base address register to read only 1 : set the corresponding bit in the base addr ess register to read/write in order to control the size of the address range reset to 00000h 7.6.9 upstream memory 3 upper 32- bit setup register ? offset 038h bit function type description 30:0 base address register size rw 0: set the corresponding bit in the uppe r 32-bit base address register to read only 1: set the corresponding bit in the upper 32-bit base address register to read/write in order to contro l the size of the address range reset to 00000000h 31 base address register enable rw 0: disable 64-bit base address register 1: enable 64-bit base address register reset to 0 7.6.10 reserved registers ? offset 3ch to 4ch 7.6.11 lookup table offset ? offset 50h bit function type description 7:0 lookup table offset rw this register contains the byte offset of the lookup table entry to be accessed for upstream memory 2. the access is initiated when the lookup table data register is accessed. this register should be written first before any lookup table data access. reset to 00h 31:8 reserved ro reset to 0
PI7C9X130 pci express to pci-x bridge page 134 of 157 pericom semiconductor september 2007 - rev 1.2 7.6.12 lookup table data ? offset 054h bit function type description 0 valid rw 0: invalid lookup 1: valid lookup reset to 0 2:1 reserved ro reset to 00 3 prefetchable rw 0: memory address is non-prefetchable 1: memory address is reset to 0 7:4 reserved ro reset to 0h 24:8 translated base or reserved rw/ro data written or read from the lookup table at the offset specified in the lookup table offset register. when writing to this register, the data value is written to the specified lookup table entry. when reading from this register, the data reflects the data value from the specified lookup table entry. the bit [24:8] is translated base register bi t when the lookup table size is set to 256b range. the bit [24:8] is reserved when the lookup table size is set to 32mb range (see pci configuration offset 68h for non-transparent mode). reset to 0 31:25 translated base rw data written or read from the lookup table at the offset specified in the lookup table offset register. when writing to this register, the data value is written to a specific lookup table entry (csr offset 100h ? 1ffh). when reading from this register, the data re flects the data value from the specific lookup table entry. reset to 0 7.6.13 upstream page boundary irq 0 request register - offset 058h bit function type description 31:0 upstream page boundary irq 0 rwc each interrupt request bit is correspondent to a page entry in the lower half of the upstream memory 2 range. bit [0] is for the first page, and bit [31] is for the 32 nd page. PI7C9X130 sets the appr opriate bit when it successfully transfers data to or from the imitator th at addresses the last double word in a page. PI7C9X130 initiates an interrupt request on secondary interface when the interrupt request bit is set and the corresponding upstream page boundary irq 0 mask bit is reset. when forwar d bridge, PI7C9X130 asserts inta_l or generates msi on secondary bus (pci interface). when reverse bridge, PI7C9X130 sends inta_l assertion messa ge or generates msi on secondary interface (pci express). when writing a ?1? to this register, it clears the corresponding interrupt request bit. reset to 0
PI7C9X130 pci express to pci-x bridge page 135 of 157 pericom semiconductor september 2007 - rev 1.2 7.6.14 upstream page boundary irq 1 request register - offset 05ch bit function type description 31:0 upstream page boundary irq 1 rwc each interrupt request bit is correspondent to a page entry in the lower half of the upstream memory 2 range. bit [0] is for the 33 rd page, and bit [31] is for the 64 th page. PI7C9X130 sets the appr opriate bit when it successfully transfers data to or from the initiator that addresses the last double word in a page. PI7C9X130 initiates an interrupt request on secondary interface when the interrupt request bit is set and the corresponding upstream page boundary irq 1 mask bit is reset. when forwar d bridge, PI7C9X130 asserts inta_l or generates msi on secondary bus (pci interface). when reverse bridge, PI7C9X130 sends inta_l assertion messa ge or generates msi on secondary interface (pci express). when wrting a ?1? to this register, it clears the corresponding interrupt request bit. reset to 0 7.6.15 upstream page boundary irq 0 mask register - offset 060h bit function type description 31:0 upstream page boundary irq 0 mask rwc 0 : PI7C9X130 can initiate an interrupt re quest when the correspondent request bit is set 1 : PI7C9X130 cannot initiate any interrupt request even though the correspondent request bit is set reset to ffffffffh 7.6.16 upstream page boundary irq 1 mask register - offset 064h bit function type description 31:0 upstream page boundary irq 1 mask rwc 0 : PI7C9X130 can initiate an interrupt re quest when the correspondent request bit is set 1 : PI7C9X130 cannot initiate any interrupt request even though the correspondent request bit is set reset to ffffffffh 7.6.17 reserved register ? offset 068c
PI7C9X130 pci express to pci-x bridge page 136 of 157 pericom semiconductor september 2007 - rev 1.2 7.6.18 primary clear irq register - offset 070h bit function type description 15:0 primary clear irq rwc when writing ?1? to this register bit, it clears the correspondent interrupt request bit. when reading this register, it retu rns the interrupt request bit status: 0: it is not the bit that causes the interrupt request on primary interface 1: it is the bit that causes the interrupt request on primary interface reset to 0000h 7.6.19 secondary clear irq register - offset 070h bit function type description 31:16 secondary clear irq rwc when writing ?1? to this register bit, it clears the correspondent interrupt request bit. when reading this register, it retu rns the interrupt request bit status: 0: it is not the bit that causes the interrupt request on secondary interface 1: it is the bit that causes the in terrupt request on secondary interface reset to 0000h 7.6.20 primary set irq register - offset 074h bit function type description 15:0 primary set irq rws when writing ?1? to this regi ster bit, it set the correspondent interrupt request bit. when reading this register, it retu rns the interrupt request bit status: 0: it is not the bit that causes the interrupt request on primary interface 1: it is the bit that causes the interrupt request on primary interface reset to 0000h 7.6.21 secondary set irq register - offset 074h bit function type description 31:16 secondary set irq rws when writing ?1? to this re gister bit, it set the corr espondent interrupt request bit. when reading this register, it retu rns the interrupt request bit status: 0: it is not the bit that causes the interrupt request on secondary interface 1: it is the bit that causes the in terrupt request on secondary interface reset to 0000h
PI7C9X130 pci express to pci-x bridge page 137 of 157 pericom semiconductor september 2007 - rev 1.2 7.6.22 primary clear irq mask register - offset 078h bit function type description 15:0 primary clear irq mask rws when writing ?1? to this register bit, it clears the correspondent interrupt request mask bit. when reading this register, it returns the primary clear irq mask bit status: 0: it allows to clear an interrupt request on primary interface 1: it does not allow to clear any interrupt request on primary interface reset to ffffh 7.6.23 secondary clear irq ma sk register - offset 078h bit function type description 31:16 secondary clear irq mask rws when writing ?1? to this register bit, it clears the correspondent interrupt request mask bit. when reading this register, it returns the secondary clear irq mask bit status: 0: it allows to clear an interrupt request on secondary interface 1: it does not allow to clear any interrupt request on secondary interface reset to ffffh 7.6.24 primary set irq mask register - offset 07ch bit function type description 15:0 primary set irq mask rws when writing ?1? to this register bit, it set the correspondent interrupt request mask bit. when reading this register, it return s the primary set irq mask bit status: 0: it allows to set an interr upt request on primary interface 1: it does not allow to set any interrupt request on primary interface reset to ffffh 7.6.25 secondary set irq mask register - offset 07ch bit function type description 31:16 secondary set irq mask rwc when writing ?1? to this register bit, it set the correspondent interrupt request mask bit. when reading this register, it returns the secondary set irq mask bit status: 0: it allows to set an interrupt request on secondary interface 1: it does not allow to set any in terrupt request on secondary interface reset to ffffh
PI7C9X130 pci express to pci-x bridge page 138 of 157 pericom semiconductor september 2007 - rev 1.2 7.6.26 reserved registers ? offset 080h to 09ch 7.6.27 scratchpad 0 register - offset 0a0h bit function type description 31:0 scratchpad 0 rw the scratchpad is a 32-bit inte rnal register that can be accessed from both primary and secondary interfaces. the ex ternal devices can use the scratchpad as a temporary storage. primary and secondary bus devices can communicate through the scratchpad. however, writi ng and reading the scratchpad does not generate any interrupt request. reset to 00000000h 7.6.28 scratchpad 1 register - offset 0a4h bit function type description 31:0 scratchpad 1 rw the scratchpad is a 32-bit inte rnal register that can be accessed from both primary and secondary interfaces. the ex ternal devices can use the scratchpad as a temporary storage. primary and secondary bus devices can communicate through the scratchpad. however, writi ng and reading the scratchpad does not generate any interrupt request. reset to 00000000h 7.6.29 scratchpad 2 register - offset 0a8h bit function type description 31:0 scratchpad 2 rw the scratchpad is a 32-bit inte rnal register that can be accessed from both primary and secondary interfaces. the ex ternal devices can use the scratchpad as a temporary storage. primary and secondary bus devices can communicate through the scratchpad. however, writi ng and reading the scratchpad does not generate any interrupt request. reset to 00000000h 7.6.30 scratchpad 3 register - offset 0ach bit function type description 31:0 scratchpad 3 rw the scratchpad is a 32-bit inte rnal register that can be accessed from both primary and secondary interfaces. the ex ternal devices can use the scratchpad as a temporary storage. primary and secondary bus devices can communicate through the scratchpad. however, writi ng and reading the scratchpad does not generate any interrupt request. reset to 00000000h
PI7C9X130 pci express to pci-x bridge page 139 of 157 pericom semiconductor september 2007 - rev 1.2 7.6.31 scratchpad 4 register - offset 0b0h bit function type description 31:0 scratchpad 4 rw the scratchpad is a 32-bit inte rnal register that can be accessed from both primary and secondary interfaces. the ex ternal devices can use the scratchpad as a temporary storage. primary and secondary bus devices can communicate through the scratchpad. however, writi ng and reading the scratchpad does not generate any interrupt request. reset to 00000000h 7.6.32 scratchpad 5 register - offset 0b4h bit function type description 31:0 scratchpad 5 rw the scratchpad is a 32-bit inte rnal register that can be accessed from both primary and secondary interfaces. the ex ternal devices can use the scratchpad as a temporary storage. primary and secondary bus devices can communicate through the scratchpad. however, writi ng and reading the scratchpad does not generate any interrupt request. reset to 00000000h 7.6.33 scratchpad 6 register - offset 0b8h bit function type description 31:0 scratchpad 6 rw the scratchpad is a 32-bit inte rnal register that can be accessed from both primary and secondary interfaces. the ex ternal devices can use the scratchpad as a temporary storage. primary and secondary bus devices can communicate through the scratchpad. however, writi ng and reading the scratchpad does not generate any interrupt request. reset to 00000000h 7.6.34 scratchpad 7 register - offset 0bch bit function type description 31:0 scratchpad 7 rw the scratchpad is a 32-bit inte rnal register that can be accessed from both primary and secondary interfaces. the ex ternal devices can use the scratchpad as a temporary storage. primary and secondary bus devices can communicate through the scratchpad. however, writi ng and reading the scratchpad does not generate any interrupt request. reset to 00000000h 7.6.35 reserved registers ? offset 0c0h to 0fch
PI7C9X130 pci express to pci-x bridge page 140 of 157 pericom semiconductor september 2007 - rev 1.2 7.6.36 lookup table registers ? offset 100h to 1fch bit function type description 2047:0 lookup table rw the lookup table has 64 entries. each entry ha s 32-bit mapped to each page of the upstream memory 2 base address range 64 th page: bit [2047:2016] 63 rd page: bit [2015:1984] 62 nd page: bit [1983:1952] 61 st page: bit [1951:1920] 60 th page: bit [1919:1888] 59 th page: bit [1887:1856] 58 th page: bit [1855:1824] 57 th page: bit [1823:1792] 56 th page: bit [1791:1760] 55 th page: bit [1759:1728] 54 th page: bit [1727:1696] 53 rd page: bit [1695:1664] 52 nd page: bit [1663:1632] 51 st page: bit [1631:1600] 50 th page: bit [1599:1568] 49 th page: bit [1567:1536] 48 th page: bit [1535:1504] 47 th page: bit [1503:1472] 46 th page: bit [1471:1440] 45 th page: bit [1439:1408] 44 th page: bit [1407:1376] 43 rd page: bit [1375:1344] 42 nd page: bit [1343:1312] 41 st page: bit [1311:1280] 40 th page: bit [1279:1248] 39 th page: bit [1247:1216] 38 th page: bit [1215:1184] 37 th page: bit [1183:1152] 36 th page: bit [1151:1120] 35 th page: bit [1119:1088] 34 th page: bit [1087:1056] 33 rd page: bit [1055:1024] 32 nd page: bit [1023:992] 31 st page: bit [991:960] 30 th page: bit [959:928] 29 th page: bit [927:896] 28 th page: bit [895:864] 27 th page: bit [863:832] 26 th page: bit [831:800] 25 th page: bit [799:768] 24 th page: bit [767:736] 23 rd page: bit [735:704] 22 nd page: bit [703:672] 21 st page: bit [671:640] 20 th page: bit [639:608] 19 th page: bit [607:576] 18 th page: bit [575:544] 17 th page: bit [543:512] 16 th page: bit [511:480] 15 th page: bit [479:448] 14 th page: bit [447:416] 13 th page: bit [415:383] 12 th page: bit [382:352] 11 th page: bit [351:320] 10 th page: bit [319:288] 9 th page: bit [287:256] 8 th page: bit [255:224] 7 th page: bit [223:192] 6 th page: bit [191:160] 5 th page: bit [159:128] 4 th page: bit [127:96] 3 rd page: bit [95:64] 2 nd page: bit [63:32] 1 st page: bit [31:0] reset to unknown 7.6.37 reserved registers ? offset 200h to ffch
PI7C9X130 pci express to pci-x bridge page 141 of 157 pericom semiconductor september 2007 - rev 1.2 8 gpio pins and sm bus address gpio [3:1] of PI7C9X130 are defined for hot-plug usage if msk_in=1 during reset. please see configuration register definition (offset 78h ? 7bh). gpio [3:0] are also defined the ad dress bits of smbus device id if sm bus is selected (tm1=1). the address-strapping table of smbus with gpio [3:0] pins is defined in the following table: figure 8-1 sm bus device id strapping sm bus address bit sm bus device id address bit [7] = 1 address bit [6] = 1 address bit [5] = 0 address bit [4] = gpio [3] address bit [3] = gpio [2] address bit [2] = gpio [1] address bit [1] = gpio [0] gpio [3:0] pins can be further defined to serve other functions in the next generation device. four gpi [3:0] and four gpo [3:0] have been added to PI7C9X130 when external arbiter is selected (cfn_l=1). if external arbiter is selected, req_l [5:2] and gnt [5:2] will become the gpi [3:0] and gpo [3:0] respectively.
PI7C9X130 pci express to pci-x bridge page 142 of 157 pericom semiconductor september 2007 - rev 1.2 9 clock scheme pci express interface: PI7C9X130 requires 100mhz differential clock inputs through refclkp and refclkn pins. pci-x / pci interface: to use external clock source, PI7C9X130 requires pci-x clock (up to 133mhz) to be connected to the pin t6, clkin / m66en. PI7C9X130 uses the clkin and generates seven clock outputs, clkout [6:0]. also, PI7C9X130 requires one of the clkout [6:0] (preferably clkout [6]) to be connected to fbclkin for the pci-x interf ace logic of PI7C9X130. to enable internal clock generator and auto frequency detection, clkin / m66en needs to connect to m66en of a pcix / pci compliant device. the clk / m66en input pin is driven high or low to enable the internal clock generator and auto frequency detection. the frequency output of clkout[0:6] is determined by the state of clkin (m66en), pc ixcap, pcixup and sel100 listed as below: clkin (m66en) pcixcap sel100 frequency low gnd high pci 25 mhz low gnd low pci 33 mhz high gnd high pci 50 mhz high gnd low pci 66 mhz dont care 10k to gnd high pcix 50 mhz dont care 10k to gnd low pcix 66 mhz dont care high high pcix 100 mhz dont care high low pcix 133 mhz the actual number of masters supported will vary depending on the loading of the pci-x bus. typically, PI7C9X130 can support up to one 133mhz pci-x slot or two 66mhz pci-x slots. the PI7C9X130 pci clock outputs, clkout [6:0], can be enabled or disabled through the configuration register. 10 interrupts PI7C9X130 supports interrupt message packets on pcie side. PI7C9X130 supports pci interrupt (inta, b, c, d) pins or msi (message signaled interrupts) on pci side. pci interrupts and msi are mutually exclusive. in order words, if msi is enabled, pci interrupts will be disabled . PI7C9X130 support 64-bit addressing msi. in reverse bridge mode, PI7C9X130 maps the interrupt message packets to pci interrupt pins or msi if msi is enable (see configuration re gister bit [16] of offset f0h). in forward bridge mode, PI7C9X130 maps the pci interrupts pins or msi if enable on pci side to interrupt message packets on pcie side.
PI7C9X130 pci express to pci-x bridge page 143 of 157 pericom semiconductor september 2007 - rev 1.2 there are eight interrupt message packets. they are assert _inta, assert_intb, assert_intc, assert_intd, deassert_inta, deassert_intb, d eassert_intc, and deassert_intd. these eight interrupt messages are mapped to the four pci interrup ts (inta, intb, intc, and intd). see table 10- 1 for interrupt mapping information in reverse bridge mode. PI7C9X130 tracks the pci interrupt (inta, intb, intc, and intd) pins and maps them to the eight interrupt messages. see table 10-2 for interrupt mapping information in forward bridge mode. figure 10-1 pcie interrupt messages to pci interrupts mapping in reverse bridge mode pcie interrupt messages (from sources of interrupt) pci interrupts (to host controller) inta message inta intb message intb intc message intc intd message intd figure 10-2 pci interrupts to pcie interrupt messages mapping in forward bridge mode pci interrupts (from sources of interrupts) pcie interrupt message packets (to host controller) inta inta message intb intb message intc intc message intd intd message
PI7C9X130 pci express to pci-x bridge page 144 of 157 pericom semiconductor september 2007 - rev 1.2 11 eeprom (i2c) interface and system management bus 11.1 eeprom (i2c) interface PI7C9X130 supports eeprom interface through i2c bus. in eeprom interface, pin a2 is the eeprom clock (scl) and pin a1 is the eeprom data (sdl). when tm2 is strapped to low, tm1 selects eeprom interface or system management bu s. to select eeprom (i2c) interface, tm1 needs to be set to low. when eeprom interface is selected, scl is an output. scl is the i2c bus clock to the i2c device. in addition, sdl is a bi-directional signal for sending and receiving data. 11.2 system management bus PI7C9X130 supports sm bus protocol if tm1=1 when tm2 is strapped to low. in addition, smbclk (pin a2) and smbdat (pin a1) are utilized as the clock and data pins respectively for the sm bus. when sm bus interface is selected, smbclk pin is an input for the clock of sm bus and smbdat pin is an open drain buffer that requires exte rnal pull-up resistor for proper operation. 12 hot plug operation PI7C9X130 is not equipped with standard hot-plug controller (shpc) integrated. however, PI7C9X130 supports hot-plug signaling messages and registers to simplify the implementation of hot-plug system. using PI7C9X130 on motherboard: PI7C9X130 supports hot-plug on pci bus if forward bridging is selected (revrsb=0). PI7C9X130 supports hot-plug function on pci express bus when reverse bridge mode is selected (revrsb=1). using PI7C9X130 on add-in card: PI7C9X130 supports hot-plug on pci express bus in forward bridge mode. hot-plug messages will be generated by PI7C9X130 based on the add-in card conditions. PI7C9X130 supports hot-plug function on pci bus when reverse bridge mode is selected. PI7C9X130 will tri-state the pci bus when reset is asserted. also, PI7C9X130 will de-asse rt inta_l if reset is asserted. the state machine of PI7C9X130 pci bus inte rface will remain idle if the reset is asserted. after reset is de-asserted, PI7C9X130 will remain in idle state until an address phase containing a valid address for PI7C9X130 or its downstream devices. PI7C9X130 expects the refclk signal will be provided to its upstream pci express port prior to the de-assertion of reset. the downstream pci port of PI7C9X130 supports a range of frequency up to 66mhz.
PI7C9X130 pci express to pci-x bridge page 145 of 157 pericom semiconductor september 2007 - rev 1.2 PI7C9X130 also supports subsystem vendor and subs ystem id. PI7C9X130 will ignore target response while the bus is idle. prsnt1# and prsnt2# are not implemented on both PI7C9X130. the use of these two signals is mandatory on an add-in card in order to support hot-plug. 13 reset scheme PI7C9X130 requires the fundamental reset (perst_l) i nput for internal logic when it is set as forward bridge mode. PI7C9X130 requires the pci/pci-x reset (reset_l) input when it is set as reverse bridge mode. also, PI7C9X130 has a power-on-reset (por) circuit to detect vddcaux power supply for auxiliary logic control. cold reset: a cold reset is a fundamental or power-on reset that occurs right after the power is applied to PI7C9X130 (during initial power up). see section 7.1.1 of pci express to pci/pci-x bridge specification, revision 1.0 for details. warm reset: a warm reset is a reset that triggered by the ha rdware without removing and re-applying the power sources to PI7C9X130. hot reset: a hot reset is a reset that used an in-band mechanism for propagating reset across a pcie link to PI7C9X130. PI7C9X130 will enter to training control reset when it receives two consecutive ts1 or ts2 order-sets with reset bit set. dl_down reset: if the pcie link goes down, the transaction and data link layer will enter dl_down status. PI7C9X130 discards all transactions and returns all logic and registers to initial state except the sticky registers. upon receiving reset (cold, warm , hot, or dl_down) on pcie in terface, PI7C9X130 will generate pci/pci-x reset (reset_l) to the downstream devices on the pci/pci-x bus in forward bridge mode. the pci/pci-x reset de-assertion follo ws the de-assertion of the reset received from pcie interface. the reset bit of bridge control register may be set depend ing on the application. PI7C9X130 will tolerant to receive and process skip order-sets at an average interval betwee n 1180 to 1538 symbol times. PI7C9X130 does not keep pci/pci-x reset active when vd33 power is off even though vaux (3.3v) is supported. it is recommended to add a weak pull-down resistor on its application board to ensure pci/pci-x reset is low when vd33 power is off (see section 7.3.2 of pci bus power management specification revision 1.1). in reverse bridge mode, PI7C9X130 generates fundamental reset (perst_l) and then 1024 ts1 order- sets with reset bit set when pci/pci-x reset (reset_l) is asserted to PI7C9X130. PI7C9X130 has scheduling skip order-set for insertion at an interval between 1180 and 1538 symbol times. PI7C9X130 transmits one electrical idle order-set and enters to electrical idle.
PI7C9X130 pci express to pci-x bridge page 146 of 157 pericom semiconductor september 2007 - rev 1.2 14 ieee 1149.1 compatible jtag controller an ieee 1149.1 compatible test access port (tap) c ontroller and associated tap pins are provided to support boundary scan in PI7C9X130 for board-level continuity test and diagnostics. the tap pins assigned are tck, tdi, tdo, tms and trst_l. all digital input, output, input/output pins are tested except tap pins. the ieee 1149.1 test logic consists of a tap controller, an instruction register, and a group of test data registers including bypass and boundary scan registers. the tap controller is a synchronous 16-state machine driven by the test clock (tck) and the test mode select (tms) pins. an independent power on reset circuit is provided to ensure the machine is in test_logic_reset state at power-up. the jtag signal lin es are not active when the pci resource is operating pci bus cycles. 14.1 instruction register PI7C9X130 implements a 5-bit instruction register to control the operation of the jtag logic. the defined instruction codes are shown in table 14-1 . those bit combinations that are not listed are equivalent to the bypass (11111) instruction: figure 14-1 instruction register codes 14.2 bypass register the required bypass register (one-bit shift register ) provides the shortest path between tdi and tdo when a bypass instruction is in effect. this allows rapid movement of test data to and from other components on the board. this path can be selected when no test operation is being performed on the PI7C9X130. 14.3 device id register this register identifies pericom as the manufacturer of the device and details the part number and revision number for the device. instruction operation code (binary) register selected operation extest 00000 boundary scan drives / receives off-chip test data sample 00001 boundary scan samples inputs / pre-loads outputs highz 00101 bypass tri-states output and i/o pins except tdo pin clamp 00100 bypass drives pins from boundary-scan register and selects bypass register for shifts idcode 01100 device id accesses the device id register, to read manufacturer id, part number, and version number bypass 11111 bypass selected bypass register int_scan 00010 internal scan scan test mem_bist 01010 memory bist memory bist test
PI7C9X130 pci express to pci-x bridge page 147 of 157 pericom semiconductor september 2007 - rev 1.2 figure 14-2 jtag device id register bit type value description 31:28 ro 00h version number 27:12 ro e130h last 4 digits (hex) of the die part number 11:1 ro 23fh pericom identifier assigned by jedec 0 ro 1b fixed bit equal to 1?b1 14.4 boundary scan register the boundary scan register has a set of serial shif t-register cells. a chain of boundary scan cells is formed by connected the internal signal of the PI7C9X130 package pins. the vdd, vss, and jtag pins are not in the boundary scan chain. the input to the shift regist er is tdi and the output from the shift register is tdo. there are 4 different types of boundary scan cells, based on the function of each signal pin. the boundary scan register cells ar e dedicated logic and do not have any system function. data may be loaded into the boundary scan register master cells from the device input pins and output pin-drivers in parallel by the mandatory sample and extest instruc tions. parallel loading takes place on the rising edge of tck. 14.5 jtag boundary sc an register order table 14-1 jtag boundary scan register definition boundary scan register number pin name ball location type tri-state control cell 0 gpio [6] l15 bidir 1 1 - - control - 2 ad [0] l16 bidir 3 3 - - control - 4 ad [1] k13 bidir 5 5 - - control - 6 ad [2] k14 bidir 7 7 - - control - 8 ad [3] k15 bidir 9 9 - - control - 10 ad [4] k16 bidir 11 11 - - control - 12 ad [5] j13 bidir 13 13 - - control - 14 ad [6] j14 bidir 15 15 - - control - 16 ad [7] j15 bidir 17 17 - - control - 18 cbe [0] j16 bidir 19 19 - - control -
PI7C9X130 pci express to pci-x bridge page 148 of 157 pericom semiconductor september 2007 - rev 1.2 boundary scan register number pin name ball location type tri-state control cell 20 ad [8] h13 bidir 21 21 - - control - 22 ad [9] h14 bidir 23 23 - - control - 24 ad [10] h15 bidir 25 25 - - control - 26 ad [11] h16 bidir 27 27 - - control - 28 ad [12] g13 bidir 29 29 - - control - 30 ad [13] g14 bidir 31 31 - - control - 32 ad [14] g15 bidir 33 33 - - control - 34 ad [15] g16 bidir 35 35 - - control - 36 cbe [1] f13 bidir 37 37 - - control - 38 par f14 bidir 39 39 - - control - 40 serr_l f15 bidir 41 41 - - control - 42 perr_l f16 bidir 43 43 - - control - 44 lock_l e13 bidir 45 45 - - control - 46 sel100 e14 input - 47 dev64 e15 input - 48 ack64_l e16 bidir 49 49 - - control - 50 req64_l d14 bidir 51 51 - - control - 52 par64 d15 bidir 53 53 - - control - 54 ad [47] d16 bidir 55 55 - - control - 56 ad [46] c15 bidir 57 57 - - control - 58 ad [45] c16 bidir 59 59 - - control - 60 ad [44] b16 bidir 61 61 - - control - 62 ad [43] b15 bidir 63 63 - - control - 64 ad [42] a15 bidir 65 65 - - control - 66 ad [41] c14 bidir 67 67 - - control - 68 ad [40] b14 bidir 69
PI7C9X130 pci express to pci-x bridge page 149 of 157 pericom semiconductor september 2007 - rev 1.2 boundary scan register number pin name ball location type tri-state control cell 69 - - control - 70 cbe [5] a14 bidir 71 71 - - control - 72 ad [39] c13 bidir 73 73 - - control - 74 ad [38] b13 bidir 75 75 - - control - 76 ad [37] a13 bidir 77 77 - - control - 78 ad [36] d12 bidir 79 79 - - control - 80 ad [35] c12 bidir 81 81 - - control - 82 ad [34] b12 bidir 83 83 - - contrl - 84 ad [33] a12 bidir 85 85 - - control - 86 ad [32] d11 bidir 87 87 - - control - 88 cbe [4] c11 bidir 89 89 - - control - 90 stop_l b11 bidir 91 91 - - control - 92 devsel_l a11 bidir 93 93 - - control - 94 trdy_l d10 bidir 93 95 irdy_l c10 bidir 96 96 - - control - 97 frame_l b10 bidir 98 98 - - control - 99 cbe [2] a10 bidir 100 100 - - control - 101 ad [16] d9 bidir 102 102 - - control - 103 ad [17] c9 bidir 104 104 - - control - 105 ad [18] b9 bidir 106 106 - - control - 107 ad [19] a9 bidir 108 108 - - control - 109 ad [20] d8 bidir 110 110 - - control - 111 ad [21] c8 bidir 112 112 - - control - 113 ad [22] b8 bidir 114 114 - - control - 115 ad [23] a8 bidir 116 116 - - control - 117 cbe [3] d7 bidir 118
PI7C9X130 pci express to pci-x bridge page 150 of 157 pericom semiconductor september 2007 - rev 1.2 boundary scan register number pin name ball location type tri-state control cell 118 - - control - 119 ad [24] c7 bidir 120 120 - - control - 121 ad [25] b7 bidir 122 122 - - control - 123 ad [26] a7 bidir 124 124 - - control - 125 ad [27] d6 bidir 126 126 - - control - 127 ad [28] c6 bidir 128 128 - - control - 129 ad [29] b6 bidir 130 130 - - control - 131 ad [30] a6 bidir 132 132 - - control - 133 ad [31] d5 bidir 134 134 - - control - 135 pme_l c5 bidir 136 136 - - control - 137 smbclk b5 bidir 138 138 - - control - 139 smbdat a5 bidir 140 140 - - control - 141 clkrun_l c4 bidir 142 142 - - control - 143 fbclkin b4 input - 144 pcixcap a4 input - 145 pcixup b3 output3 146 146 - - control - 147 perst_l p1 bidir 148 148 - - control - 149 req_l [0] r1 input - 150 req_l [1] p2 input - 151 req_l [2] r2 input - 152 req_l [3] t2 input - 153 req_l [4] n3 input - 154 req_l [5] p3 input - 155 hsen r3 input - 156 hssw t3 input - 157 inta_l p4 bidir 158 158 - - control - 159 gnt_l [0] r4 output3 160 160 - - control - 161 gnt_l [1] t4 output3 166 162 gnt_l [2] n5 output3 166 163 gnt_l [3] p5 output3 166 164 gnt_l [4] r5 output3 166 165 gnt_l [5] t5 output3 166 166 - - control -
PI7C9X130 pci express to pci-x bridge page 151 of 157 pericom semiconductor september 2007 - rev 1.2 boundary scan register number pin name ball location type tri-state control cell 167 loo n6 output3 168 168 - - control - 169 enum_l p6 output3 170 170 - - control - 171 intb_l r6 bidir 172 172 - - control - 173 clkin / m66en t6 input - 174 reset_l n7 bidir 175 175 - - control - 176 cfn_l p7 input - 177 gpio [3] r7 bidir 178 178 - - control - 179 gpio [2] t7 bidir 180 180 - - control - 181 gpio [1] n8 bidir 182 182 - - control - 183 gpio [0] p8 bidir 184 184 - - control - 185 clkout [0] r8 output3 192 186 clkout [1] t8 output3 192 187 clkout [2] n9 output3 192 188 clkout [3] p9 output3 192 189 clkout [4] r9 output3 192 190 clkout [5] t9 output3 192 191 clkout [6] n10 output3 192 192 - - control - 193 gpio [4] p10 bidir 194 194 - - control - 195 gpio [5] r10 bidir 196 196 - - control - 197 intc_l t10 bidir 198 198 - - control - 199 ad [63] n11 bidir 200 200 - - control - 201 ad [62] p11 bidir 202 202 - - control - 203 ad [61] r11 bidir 204 204 - - control - 205 ad [60] t11 bidir 206 206 - - control - 207 ad [59] n12 bidir 208 208 - - control - 209 ad [58] p12 bidir 210 210 - - control - 211 ad [57] r12 bidir 212 212 - - control - 213 ad [56] t12 bidir 214 214 - - control - 215 cbe [7] p13 bidir 216
PI7C9X130 pci express to pci-x bridge page 152 of 157 pericom semiconductor september 2007 - rev 1.2 boundary scan register number pin name ball location type tri-state control cell 216 - - control - 217 ad [55] r13 bidir 218 218 - - control - 219 ad [54] t13 bidir 220 220 - - control - 221 ad [53] p14 bidir 222 222 - - control - 223 ad [52] r14 bidir 224 224 - - control - 225 ad [51] t14 bidir 226 226 - - control - 227 ad [50] t15 bidir 228 228 - - control - 229 ad [49] r15 bidir 230 230 - - control - 231 ad [48] r16 bidir 232 232 - - control - 233 cbe [6] p15 bidir 234 234 - - control - 235 revrsb n14 input - 236 intd_l n15 bidir 237 237 - - control - 238 msk_in n16 input - 239 idsel m13 input - 15 power management PI7C9X130 supports d0, d3-hot, d3-cold power states. d1 and d2 states are not supported. the pci express physical link layer of the PI7C9X130 device supports the pci express link power management with l0, l0s, l1, l2/l3 ready and l3 power states. for the pci port of PI7C9X130, it supports the standard pci power management states with b0, b1, b2 and b3. during d3-hot state, the main power supplies of vddp, vddc, and vd33 can be turned off to save power while keeping the vddaux, vddcaux, and vaux with the auxiliary power supplies to maintain all necessary information to be restored to the full power d0 state. PI7C9X130 has been designed to have sticky registers that are powered by auxiliary power supplies. pme_l pin allows pci devices to request power management state changes. along with the operating system and application software, pci devices can achieve optimum power saving by using pme_l in forward bridge mode. PI7C9X130 converts pme_l signal information to power management messages to the upstream switches or root complex. in reverse bridge mode, PI7C9X130 converts the power management event messages from pcie devices to the pme_l signal and continues to request power management state change to the host bridge. PI7C9X130 also supports aspm (active state powe r management) to facilitate the link power saving. PI7C9X130 supports beacon generation but does not support wake# signal.
PI7C9X130 pci express to pci-x bridge page 153 of 157 pericom semiconductor september 2007 - rev 1.2 16 electrical and timing specifications 16.1 absolute maximum ratings table 16-1 absolute maximum ratings storage temperature -65 o c to 150 o c ambient temperature with power appiled 0 o c to 85 o c pci express supply voltage to ground potential (vdda, vddp, vddc, vddaux, and vddcaux) -0.3v to 3.0v pci supply voltage to ground potential (vd33 and vaux) -0.3v to 3.6v dc input voltage for pci express signals -0.3v to 3.0v dc input voltage for pci signals -0.5v to 5.75v 16.2 dc specifications table 16-2 provides dc electri cal characteristics of PI7C9X130: table 16-2 dc electrical characteristics power pins min. typ. max. vdda 1.6v 1.8v 2.0v vddp 1.6v 1.8v 2.0v vddaux 1.6v 1.8v 2.0v vtt vddp vddp 2.0v vdda_pll 1.6v 1.8v 2.0v vddp_pll 1.6v 1.8v 2.0v vddc 1.6v 1.8v 2.0v vddcaux 1.6v 1.8v 2.0v vd33 3.0v 3.3v 3.6v vaux 3.0v 3.3v 3.6v vdda: analog power for pci express interface vddp: digital power for pci express interface vddaux: digital auxiliary power for pci express interface vtt: termination power for pci express interface vdda_pll: analog power for pll of pci-x interface vddp_pll: digital power for pll of pci-x interface vddc: digital power for the core vddcaux: digital auxiliary power for the core vd33: digital power for pci/pci-x interface vaux: digital auxiliary power for pci/pci-x interface in order to support auxiliary power management fully, it is recommended to have vddp and vddaux separated. by the same token, vd33/vddc and vaux/vddcaux need to be separated for auxiliary
PI7C9X130 pci express to pci-x bridge page 154 of 157 pericom semiconductor september 2007 - rev 1.2 power management support. howeve r, if auxiliary power management is not required, vd33 and vddc can be connected to vaux and vddcaux respectively. the typical power consumption of PI7C9X130 is about 1.5 watt. PI7C9X130 is capable of sustaining 2000v human body model and 500v charged device model for the esd protection without any damages. 16.3 ac specifications table 16-3 provides pci bus timing parameters of PI7C9X130. table 16-3 pci bus timing parameters pci-x 133mhz pci 66 mhz pci 33 mhz units symbol parameter min. max. min. max. min. max. tsu input setup time to clk ? bused signals 1,2,3 1.2 - 3 - 7 - tsu (ptp) input setup time to clk ? point-to-point 1,2,3 1.2 - 5 - 10, 12 4 - th input signal hold time from clk 1,2 0.5 - 0 - 0 - tval clk to signal valid delay ? bused signals 1,2,3 0.7 3.8 2 6 2 11 tval (ptp) clk to signal valid delay ? point-to-point 1,2,3 0.7 3.8 2 6 2 12 ton float to active delay 1,2 0 - 2 - 2 - toff active to float delay 1,2 - 7 - 14 - 28 ns 1. see figure 16 ?1 pci signal timing measurement conditions. 2. all pci interface signals ar e synchronized to fbclkin. 3. point-to-point signals are req_l [7:0], gnt_l [7:0], loo, and enum_l. bused signals are ad, cbe, par, perr_l, serr_l, frame_l, irdy_ l, trdy_l, lock_l, stop_l and idsel. 4. pci control signals: frame_l, trdy_l, irdy_l, devsel_l, stop_l, serr_l, perr_l, lock_l, inta_l, intb_l, intc_l, intd_l, req64_l and act64_l of PI7C9X130 require pull- up resistors (~5k ohm) if PI7C9X130 is implemented as a pcix host on the system motherboard. 5. if the system needs to support 32-bit pci add-in card then ad[63::32] and c/be[7::4]_l pins need pull-up resistor (~5k ohm) 6. req_l signals have a setup of 10ns and gnt_l signals have a setup of 12ns.
PI7C9X130 pci express to pci-x bridge page 155 of 157 pericom semiconductor september 2007 - rev 1.2 figure 16-1 pci signal timing conditions 17 package information figure 17-1 top view drawing
PI7C9X130 pci express to pci-x bridge page 156 of 157 pericom semiconductor september 2007 - rev 1.2 figure 17-2 bottom view drawing the package of PI7C9X130 is a 17mm x 17mm pbga (256 pin) package. the ball pitch is 1.0mm and the ball size is 0.5mm. the following are th e package information and mechanical dimension:
PI7C9X130 pci express to pci-x bridge page 157 of 157 pericom semiconductor september 2007 - rev 1.2 figure 17-3 package outline drawing 18 ordering information device package rohs compliant temperature range PI7C9X130cnde 256-pin pbga 17 x 17mm yes -40c to 85c

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