仅对英特尔可见 — GUID: nik1398706812037
Ixiasoft
2.7.1. PIPE的收发器通道数据通路
2.7.2. 所支持的PIPE特性
2.7.3. 如何连接PIPE Gen1、Gen2和Gen3模式的TX PLL
2.7.4. 如何在Arria 10收发器中实现PCI Express* (PIPE)
2.7.5. PIPE的Native PHY IP参数设置
2.7.6. PIPE的fPLL IP参数内核设置
2.7.7. PIPE的ATX PLL IP参数内核设置
2.7.8. PIPE的Native PHY IP端口
2.7.9. PIPE的fPLL端口
2.7.10. PIPE的ATX PLL端口
2.7.11. 到TX去加重的预置映射
2.7.12. 如何对PIPE配置布局通道
2.7.13. Gen3数据速率的PHY IP Core for PCIe* (PIPE)链路均衡
2.7.14. 使用收发器套件(TTK)/系统控制台/重配置接口进行手动调节 Arria® 10 PCIe设计(Hard IP(HIP)和PIPE) (仅用于调试)
2.9.1.1. 如何在Arria 10收发器中实现Basic (Enhanced PCS)和Basic with KR FEC收发器配置规则
2.9.1.2. Basic (Enhanced PCS)和Basic with KR FEC的Native PHY IP参数设置
2.9.1.3. 如何在Basic Enhanced PCS中低延时
2.9.1.4. Enhanced PCS FIFO操作
2.9.1.5. TX Data Bitslip(TX数据比特滑移)
2.9.1.6. TX数据极性反转
2.9.1.7. RX Data Bitslip(RX数据比特滑移)
2.9.1.8. RX数据极性反转
2.9.2.1. 字对齐器手动模式
2.9.2.2. 字对齐器同步状态机模式
2.9.2.3. RX比特滑移
2.9.2.4. RX极性反转
2.9.2.5. RX比特反转
2.9.2.6. RX字节反转
2.9.2.7. 基本(单宽度)模式下的速率匹配FIFO
2.9.2.8. 速率匹配FIFO基本(双宽度)模式
2.9.2.9. 8B/10B编码器和解码器
2.9.2.10. 8B/10B TX差异控制
2.9.2.11. 如何在基本模式下使能低延时
2.9.2.12. TX比特滑移
2.9.2.13. TX极性倒转
2.9.2.14. TX比特反转
2.9.2.15. TX字节反转
2.9.2.16. 如何在 Arria® 10 收发器中实现Basic,Basic with Rate Match收发器配置规则
2.9.2.17. Basic,Basic with Rate Match配置的Native PHY IP参数设置
6.1. 重新配置通道和 PLL 模块
6.2. 与重配置接口进行交互
6.3. 配置文件
6.4. 多种重配置设置档
6.5. 嵌入重配置流光器
6.6. 仲裁
6.7. 动态重配置的建议
6.8. 执行动态重配置的步骤
6.9. 直接重配置流程
6.10. Native PHY IP或PLL IP内核指导的重配置流程
6.11. 特殊情况的重配置流程
6.12. 更改 PMA 模拟参数
6.13. 端口和参数
6.14. 在多个IP模块之中动态重配置接口合并
6.15. 嵌入式调试功能
6.16. 使用数据码型生成器和检查器
6.17. 时序收敛建议
6.18. 不支持的功能
6.19. Arria® 10 收发器寄存器映射
8.7.1. XCVR_A10_TX_PRE_EMP_SIGN_PRE_TAP_1T
8.7.2. XCVR_A10_TX_PRE_EMP_SIGN_PRE_TAP_2T
8.7.3. XCVR_A10_TX_PRE_EMP_SIGN_1ST_POST_TAP
8.7.4. XCVR_A10_TX_PRE_EMP_SIGN_2ND_POST_TAP
8.7.5. XCVR_A10_TX_PRE_EMP_SWITCHING_CTRL_PRE_TAP_1T
8.7.6. XCVR_A10_TX_PRE_EMP_SWITCHING_CTRL_PRE_TAP_2T
8.7.7. XCVR_A10_TX_PRE_EMP_SWITCHING_CTRL_1ST_POST_TAP
8.7.8. XCVR_A10_TX_PRE_EMP_SWITCHING_CTRL_2ND_POST_TAP
仅对英特尔可见 — GUID: nik1398706812037
Ixiasoft
2.3. Arria® 10 收发器协议和PHY IP支持
| 协议 | 收发器PHY IP内核 | PCS支持 | 收发器配置规则9 | 协议预置10 |
|---|---|---|---|---|
| PCIe* Gen3 x1, x2, x4, x8 | Native PHY IP core (PIPE)/Hard IP for PCI Express* 11 | Standard and Gen3 | Gen3 PIPE | PCIe PIPE Gen3 x1 PCIe PIPE Gen3 x8 |
| PCIe Gen2 x1, x2, x4, x8 | Native PHY IP (PIPE) core/Hard IP for PCI Express 11 | Standard | Gen2 PIPE | PCIe PIPE Gen2 x1 PCIe PIPE Gen2 x8 |
| PCIe Gen1 x1, x2, x4, x8 | Native PHY IP (PIPE) core/Hard IP for PCI Express 11 | Standard | Gen1 PIPE | User created |
| 1000BASE-X Gigabit Ethernet | Native PHY IP core | Standard | GbE | GIGE - 1.25 Gbps |
| 1000BASE-X Gigabit Ethernet with 1588 | Native PHY IP core | Standard | GbE 1588 | GIGE - 1.25 Gbps 1588 |
| 10GBASE-R | Native PHY IP core | Enhanced | 10GBASE-R | 10GBASE-R Low Latency |
| 10GBASE-R 1588 | Native PHY IP core | Enhanced | 10GBASE-R 1588 | 10GBASE-R 1588 |
| 10GBASE-R with KR FEC | Native PHY IP core | Enhanced | 10GBASE-R w/KR FEC | 10GBASE-R w/KR FEC |
| 10GBASE-KR and 1000BASE-X | 1G/10GbE and 10GBASE-KR PHY IP12 | Standard and Enhanced | Not applicable | BackPlane_wo_1588 LineSide (optical) LineSide(optical)_1588 |
| 40GBASE-R | Native PHY IP core | Enhanced | Basic (Enhanced PCS) | Low Latency Enhanced PCS 13 |
| 40GBASE-R with FEC/40GBASE-KR4 14 | Native PHY IP core | Enhanced | Basic w/KR FEC | User created |
| 100GBASE-R via CAUI-4/CPPI-4/BP and CEI-25G | Native PHY IP core | Enhanced and PCS Direct | Basic (Enhanced PCS) / PCS Direct | Low Latency GT15 |
| 100GBASE-R via CAUI | Native PHY IP core | Enhanced | Basic (Enhanced PCS) | Low Latency Enhanced PCS 16 |
| 100GBASE-R via CAUI with FEC | Native PHY IP core | Enhanced | Basic w/KR FEC | User created |
| XAUI | XAUI PHY IP core | Soft PCS | Not applicable | Not applicable |
| SPAUI | Native PHY IP core | Standard and Enhanced | Basic/Custom (Standard PCS) Basic (Enhanced PCS) |
User created |
| DDR XAUI | Native PHY IP core | Standard and Enhanced | Basic/Custom (Standard PCS) Basic (Enhanced PCS) |
User created |
| Interlaken (CEI-6G/11G) 17 | Native PHY IP core | Enhanced | Interlaken | Interlaken 10x12.5Gbps Interlaken 6x10.3Gbps Interlaken 1x6.25Gbps |
| OTU-4 (100G) via OTL4.10/OIF SFI-S | Native PHY IP core | Enhanced | Basic (Enhanced PCS) | SFI-S 64:64 4x11.3 Gbps18 |
| OTU-3 (40G) via OTL3.4/OIF SFI-5.2/SFI-5.1 | Native PHY IP core | Enhanced | Basic (Enhanced PCS) | User created |
| OTU-2 (10G) via SFP+/SFF-8431/CEI-11G | Native PHY IP core | Enhanced | Basic (Enhanced PCS) | User created |
| OTU-2 (10G) via OIF SFI-5.1s | Native PHY IP core | Enhanced | Basic (Enhanced PCS) | User created |
| OTU-1 (2.7G) | Native PHY IP core | Standard | Basic/Custom (Standard PCS) | User created |
| SONET/SDH STS-768/STM-256 (40G) via OIF SFI-5.2/STL256.4 | Native PHY IP core | Enhanced | Basic (Enhanced PCS) | User created |
| SONET/SDH STS-768/STM-256 (40G) via OIF SFI-5.1 | Native PHY IP core | Enhanced | Basic (Enhanced PCS) | User created |
| SONET/SDH STS-192/STM-64 (10G) via SFP+/SFF-8431/CEI-11G | Native PHY IP core | Enhanced | Basic (Enhanced PCS) | User created |
| SONET/SDH STS-192/STM-64 (10G) via OIF SFI-5.1s/SxI-5/SFI-4.2 | Native PHY IP core | Enhanced | Basic (Enhanced PCS) | User created |
| SONET STS-96 (5G) via OIF SFI-5.1s | Native PHY IP core | Enhanced | Basic/Custom (Standard PCS) | SONET/SDH OC-96 |
| SONET/SDH STS-48/STM-16 (2.5G) via SFP/TFI-5.1 | Native PHY IP core | Standard | Basic/Custom (Standard PCS) | SONET/SDH OC-48 |
| SONET/SDH STS-12/STM-4 (0.622G) via SFP/TFI-5.1 | Native PHY IP core 19 | Standard | Basic/Custom (Standard PCS) | SONET/SDH OC-12 |
| Intel® QPI 1.1/2.0 | Native PHY IP core | PCS Direct | PCS Direct | User created |
| SD-SDI/HD-SDI/3G-SDI | Native PHY IP core | Standard | Basic/Custom (Standard PCS) | 3G/HD SDI NTSC 3G/HD SDI PAL |
| Vx1 | Native PHY IP core | Standard | Basic/Custom (Standard PCS) | User created |
| DisplayPort 20 | Native PHY IP core | Standard | Basic/Custom (Standard PCS) | User created |
| 1.25G/ 2.5G 10G GPON/EPON |
Native PHY IP core | Enhanced | Basic (Enhanced PCS) | User created |
| 2.5G/1.25G GPON/EPON | Native PHY IP core | Standard | Basic/Custom (Standard PCS) | User created |
| 16G/10G Fibre Channel | Native PHY IP core | Enhanced | Basic (Enhanced PCS) | User created |
| 8G/4G/2G/1G Fibre Channel | Native PHY IP core | Standard | Basic/Custom (Standard PCS) | User created |
| EDR Infiniband x1, x4 | Native PHY IP core | Enhanced (low latency mode) PCS Direct |
Basic (Enhanced PCS) PCS Direct |
User created |
| FDR/FDR-10 Infiniband x1, x4, x12 | Native PHY IP core | Enhanced | Basic (Enhanced PCS) | User created |
| SDR/DDR/QDR Infiniband x1, x4, x12 | Native PHY IP core | Standard | Basic/Custom (Standard PCS) | User created |
| CPRI v6.1 12.16512/CPRI v6.0 10.1376 Gbps | Native PHY IP core | Enhanced | 10GBASE-R 1588 10GBASE-R |
User created |
| CPRI 4.2/OBSAI RP3 v4.2 | Native PHY IP core | Standard | CPRI (Auto) / CPRI (Manual) | CPRI 9.8Gbps Auto Mode CPRI 9.8 Gbps Manual Mode |
| SRIO 2.2/1.3 | Native PHY IP core | Standard | Basic/Custom with Rate Match(Standard PCS) | Serial Rapid IO 1.25 Gbps |
| SAS 3.0 | Native PHY IP core | Enhanced | Basic (Enhanced PCS) | User created |
| SATA 3.0/2.0/1.0 and SAS 2.0/1.1/1.0 | Native PHY IP core | Standard | Basic/Custom (Standard PCS) | SAS Gen2/Gen1.1/Gen1 SATA Gen3/Gen2/Gen1 |
| HiGig/HiGig+/HiGig2/HiGig2+ | Native PHY IP core | Standard | Basic/Custom (Standard PCS) | User created |
| JESD204A / JESD204B | Native PHY IP core | Standard and Enhanced | Basic/Custom (Standard PCS) Basic (Enhanced PCS) 21 | User created |
| ASI | Native PHY IP core | Standard | Basic/Custom (Standard PCS) | User created |
| SPI-5 (100G) / SPI-5 (50G) | Native PHY IP core | Enhanced | Basic (Enhanced PCS) | User created |
| Custom and other protocols | Native PHY IP core | Standard and Enhanced PCS Direct |
Basis/Custom (Standard PCS) Basic (Enhanced PCS) Basic/Custom with Rate Match (Standard PCS) PCS Direct |
User created |
9 关于Transceiver Configuration Rules的详细信息,请参考使用 Intel® Arria® 10 Transceiver Native PHY IP Core部分。
10 关于Protocol Presets的详细信息,请参考使用 Intel® Arria® 10 Transceiver Native PHY IP Core部分。
11 Hard IP for PCI Express也可用作一个独立的IP内核。
12 1G/10GbE和10GBASE-KR PHY IP core包括链路训练,自动速度协商和sequencer功能所需要的soft IP。
13 要使用Low Latency Enhanced PCS preset来实现40GBASE-R,需要将数据通道数改成4,并选择相应的PCS- FPGA Fabric和PCS-PMA宽度。
14 Native PHY IP中不包括链路训练,自动速度协商和sequencer功能。使用Native PHY IP时,用户需要创建软核逻辑来实现这些功能。
15 Low Latency GT protocol preset需要一些修改才能实现CAUI-4/CPPI-4/BP-4 and CEI-25G。
16 要使用Low Latency Enhanced PCS preset实现100GBASE-R via CAUI,需要将数据通道数改成10,并选择相应的PCS-FPGA Fabric和PCS-PMA宽度。
17 在设计实例中提供多通道绑定配置所需要的Transmit PCS软绑定逻辑。
18 要使用SFI-S 64:64 4x11.3Gbps preset实现OTU-4 (100G) via OTL4.10/OIF SFI-S,对于OTL4.10要将数据通道数改成10,对于SFI-S要改成用户所需的通道数和要实现的数据速率。
19 对于发送器及接收器而言,最小可操作数据速率是1.0 Gbps。 对于小于1.0 Gbps的发送器数据速率,在发送器上必须应用过采样。对于小于1.0 Gbps的接收器数据速率,在接收器上必须应用过采样。
20 为满足DisplayPort TX电气完全符合VESA DisplayPort Standard 1.3版本和 VESA DisplayPort PHY Compliance Specification 1.2b版本,VCCT_GXB和VCCR_GXB需要为1.03V或者更高电压。请参考AN745:DisplayPort和HDMI接口设计指南 来了解详细信息。
21 对于JESD204B,当数据速率大于12.0 Gbps时使用Enhanced PCS。