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1. Transceiver Architecture in Arria V Devices
2. Transceiver Clocking in Arria V Devices
3. Transceiver Reset Control in Arria V Devices
4. Transceiver Protocol Configurations in Arria V Devices
5. Transceiver Custom Configurations in Arria V Devices
6. Transceiver Configurations in Arria V GZ Devices
7. Transceiver Loopback Support in Arria V Devices
8. Dynamic Reconfiguration in Arria V Devices
1.2.2.1.1. Word Aligner in Manual Alignment Mode
1.2.2.1.2. Bit-Slip Mode
1.2.2.1.3. Word Aligner in Automatic Synchronization State Machine Mode
1.2.2.1.4. Word Aligner in Deterministic Latency State Machine Mode
1.2.2.1.5. Programmable Run-Length Violation Detection
1.2.2.1.6. Receiver Polarity Inversion
1.2.2.1.7. Bit Reversal
1.2.2.1.8. Receiver Byte Reversal
3.1. PHY IP Embedded Reset Controller
3.2. User-Coded Reset Controller
3.3. Transceiver Reset Using Avalon Memory Map Registers
3.4. Clock Data Recovery in Manual Lock Mode
Resetting the Transceiver During Dynamic Reconfiguration
3.6. Transceiver Blocks Affected by the Reset and Powerdown Signals
3.7. Transceiver Power-Down
3.8. Document Revision History
3.2.1. User-Coded Reset Controller Signals
3.2.2. Resetting the Transmitter with the User-Coded Reset Controller During Device Power-Up
3.2.3. Resetting the Transmitter with the User-Coded Reset Controller During Device Operation
3.2.4. Resetting the Receiver with the User-Coded Reset Controller During Device Power-Up Configuration
3.2.5. Resetting the Receiver with the User-Coded Reset Controller During Device Operation
4.1. PCI Express
4.2. Gigabit Ethernet
4.3. XAUI
4.4. 10GBASE-R
4.5. Serial Digital Interface
4.6. Gigabit-Capable Passive Optical Network (GPON)
4.7. Serial Data Converter (SDC) JESD204
4.8. SATA and SAS Protocols
4.9. Deterministic Latency Protocols—CPRI and OBSAI
4.10. Serial RapidIO
4.11. Document Revision History
4.1.2.1. PIPE Interface
4.1.2.2. Transmitter Electrical Idle Generation
4.1.2.3. Power State Management
4.1.2.4. 8B/10B Encoder Usage for Compliance Pattern Transmission Support
4.1.2.5. Receiver Status
4.1.2.6. Receiver Detection
4.1.2.7. Clock Rate Compensation Up to ±300 ppm
4.1.2.8. PCIe Reverse Parallel Loopback
6.1.1. 10GBASE-R and 10GBASE-KR Transceiver Datapath Configuration
6.1.2. 10GBASE-R and 10GBASE-KR Supported Features
6.1.3. 1000BASE-X and 1000BASE-KX Transceiver Datapath
6.1.4. 1000BASE-X and 1000BASE-KX Supported Features
6.1.5. Synchronization State Machine Parameters in 1000BASE-X and 1000BASE-KX Configurations
6.1.6. Transceiver Clocking in 10GBASE-R, 10GBASE-KR, 1000BASE-X, and 1000BASE-KX Configurations
6.3.1. Transceiver Datapath Configuration
6.3.2. Supported Features for PCIe Configurations
6.3.3. Supported Features for PCIe Gen3
6.3.4. Transceiver Clocking and Channel Placement Guidelines
6.3.5. Advanced Channel Placement Guidelines for PIPE Configurations
6.3.6. Transceiver Clocking for PCIe Gen3
6.7.1. Protocols and Transceiver PHY IP Support
6.7.2. Native PHY Transceiver Datapath Configuration
6.7.3. Standard PCS Features
6.7.4. 10G PCS Supported Features
6.7.5. 10G Datapath Configurations with Native PHY IP
6.7.6. PMA Direct Supported Features
6.7.7. Channel and PCS Datapath Dynamic Switching Reconfiguration
8.1. Dynamic Reconfiguration Features
8.2. Offset Cancellation
8.3. Transmitter Duty Cycle Distortion Calibration
8.4. PMA Analog Controls Reconfiguration
8.5. Dynamic Reconfiguration of Loopback Modes
8.6. Transceiver PLL Reconfiguration
8.7. Transceiver Channel Reconfiguration
8.8. Transceiver Interface Reconfiguration
8.9. Reduced .mif Reconfiguration
8.10. On-Chip Signal Quality Monitoring (Eye Viewer)
8.11. Adaptive Equalization
8.12. Decision Feedback Equalization
8.13. Unsupported Reconfiguration Modes
8.14. Document Revision History
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1.1.1. Transceiver Banks
The columns of Arria V transceivers are categorized in banks of six channels. The transceiver bank boundaries are important for clocking resources, bonding channels, and fitting. In some package variations, some transceiver banks are reduced to three channels. In the Arria V GX/GT/SX/ST, there are fundamentally two types of transceiver channels; 6-Gbps and 10-Gbps. By contrast, every Arria V GZ transceiver channel supports operation up to 12.5 Gbps data rates.
Figure 2. Transceiver Bank and PCIe Hard IP Location for GX Devices (1), (2)
GX Variants | Left Hard IP | Right Hard IP | Total Channels |
---|---|---|---|
Base | None | None | 9 |
Mainstream | 1 | None | 9, 18 |
Extended Feature | 1 | 1 | 24, 36 |
Figure 3. Transceiver Bank and PCIe Hard IP Location for GT Devices
GT Variants | Left Hard IP | Right Hard IP | Total Channels |
---|---|---|---|
Mainstream | 1 | None | 9, 18 |
Extended Feature | 1 | 1 | 24, 36 |
Figure 4. Transceiver Bank and PCIe Hard IP Location for GZ Devices
Figure 5. Transceiver Bank Location for SX Devices (9 channels)SX devices with 9 channels do not have PCIe Hard IP blocks.
Figure 6. Transceiver Bank and PCIe Hard IP Location for SX Devices (12,18, 30 channels) (1)
SX Variants | Left Hard IP | Right Hard IP | Total Channels |
---|---|---|---|
Mainstream | None | 1 | 12 |
1 | None | 18 (F1517 package) | |
Extended Feature | 1 | 1 | 18 (F1152 package) |
1 | 1 | 30 |
Figure 7. Transceiver Bank and PCIe Hard IP Location for ST Devices(1), (2), (3)
ST Variants | Left Hard IP | Right Hard IP | Total Channels |
---|---|---|---|
Mainstream | None | 1 | 12 |
Extended Feature | 1 | 1 | 18 |
1 | 1 | 30 |
Device Variants | Channel Location | Usage Restriction |
---|---|---|
GX, SX | Ch1, Ch2 of GXB_L01 Ch1, Ch2 of GXB_R01 |
No support for PCS with phase compensation FIFO in registered mode (for example, CPRI or deterministic latency) |
ST, GT | Ch1, Ch2 of GXB_L0 and GXB_R01 | No support for PCS with phase compensation FIFO in registered mode (for example, CPRI or deterministic latency) |
ST | Ch0, Ch1, Ch2 of GXB_L0 and GXB_R0 | No PMA Direct Support |
GT | Ch0, Ch1, Ch2 of GXB_L0 and GXB_R01 | No PMA Direct Support |
1 The PMA clock of Channel 1 and Channel 2 of GBX_L0 and GXB_R0 cannot be routed out of the FPGA fabric for Arria V GX, GT, ST, and SX devices.