Embedded Peripherals IP User Guide

ID 683130
Date 2/16/2024
Public

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Document Table of Contents
1. Introduction 2. Avalon® -ST Multi-Channel Shared Memory FIFO Core 3. Avalon® -ST Single-Clock and Dual-Clock FIFO Cores 4. Avalon® -ST Serial Peripheral Interface Core 5. SPI Core 6. SPI Agent/JTAG to Avalon® Host Bridge Cores 7. Intel eSPI Agent Core 8. eSPI to LPC Bridge Core 9. Ethernet MDIO Core 10. Intel FPGA 16550 Compatible UART Core 11. UART Core 12. JTAG UART Core 13. Intel FPGA Avalon® Mailbox Core 14. Intel FPGA Avalon® Mutex Core 15. Intel FPGA Avalon® I2C (Host) Core 16. Intel FPGA I2C Agent to Avalon® -MM Host Bridge Core 17. Intel FPGA Avalon® Compact Flash Core 18. EPCS/EPCQA Serial Flash Controller Core 19. Intel FPGA Serial Flash Controller Core 20. Intel FPGA Serial Flash Controller II Core 21. Intel FPGA Generic QUAD SPI Controller Core 22. Intel FPGA Generic QUAD SPI Controller II Core 23. Interval Timer Core 24. Intel FPGA Avalon FIFO Memory Core 25. On-Chip Memory (RAM and ROM) Intel FPGA IP 26. On-Chip Memory II (RAM or ROM) Intel FPGA IP 27. Optrex 16207 LCD Controller Core 28. PIO Core 29. PLL Cores 30. DMA Controller Core 31. Modular Scatter-Gather DMA Core 32. Scatter-Gather DMA Controller Core 33. SDRAM Controller Core 34. Tri-State SDRAM Core 35. Video Sync Generator and Pixel Converter Cores 36. Intel FPGA Interrupt Latency Counter Core 37. Performance Counter Unit Core 38. Vectored Interrupt Controller Core 39. Avalon® -ST Data Pattern Generator and Checker Cores 40. Avalon® -ST Test Pattern Generator and Checker Cores 41. System ID Peripheral Core 42. Avalon® Packets to Transactions Converter Core 43. Avalon® -ST Multiplexer and Demultiplexer Cores 44. Avalon® -ST Bytes to Packets and Packets to Bytes Converter Cores 45. Avalon® -ST Delay Core 46. Avalon® -ST Round Robin Scheduler Core 47. Avalon® -ST Splitter Core 48. Avalon® -MM DDR Memory Half Rate Bridge Core 49. Intel FPGA GMII to RGMII Converter Core 50. Intel FPGA MII to RMII Converter Core 51. HPS GMII to TSE 1000BASE-X/SGMII PCS Bridge Core Intel® FPGA IP 52. Intel FPGA HPS EMAC to Multi-rate PHY GMII Adapter Core 53. Intel FPGA MSI to GIC Generator Core 54. Cache Coherency Translator Intel® FPGA IP 55. Lightweight UART Core

39.2.1. Functional Description

The data pattern generator core accepts commands to generate and drive data onto a parallel Avalon® -ST source interface.
Figure 144. Data Pattern Generator Core Block Diagram

You can configure the width of the output data signal to either 32-bit or 40-bit when instantiating the core.

You can configure this core to output 8-bit or 10-bit wide symbols. By default, the core generates 4 symbols per beat, which outputs 32-bit or 40-bit wide data to the Avalon® -ST interfaces, respectively. The core’s data format endianness is the most significant symbol first within a beat and the most significant bit first within a symbol. For example, when you configure the output data to 32-bit, bit 31 is the first data bit, followed by bit 30, and so forth. This interface’s endianness may change in future versions of the core.

For smaller data widths, you can use the Avalon® -ST Data Format Adapter for data width adaptation. The Avalon® -ST Data Format Adapter converts the output from 4 symbols per beat, to 2 or 1 symbol per beat. In this way, the 32-bit output of the core can be adapted to a 16-bit or 8-bit output and the 40-bit output can be adapted to a 20-bit or 10-bit output.

For more information about the Avalon® -ST Data Format Adapter, refer to the Intel® Quartus® Prime Standard Edition User Guide: Platform Designer and the Intel® Quartus® Prime Pro Edition User Guide: Platform Designer.

Control and Status Interface

The control and status interface is an Avalon® -MM agent that allows you to enable or disable the data generation. This interface also provides the run-time ability to choose data pattern and inject an error into the data stream.

Output Interface

The output interface is a parallel Avalon® -ST interface. You can configure the data width at the output interface to suit your requirements.

Supported Data Patterns

The following data patterns are supported in the following manner, per beat. When the core is disabled or in idle state, the default pattern generated on the data output is 0×5555 (for 32-bit data width) or 0×55555 (for 40-bit data width).

Table 412.  Supported Data Patterns (Binary Encoding)
Pattern 32-bit 40-bit
PRBS-7 PRBS in parallel PRBS in parallel
PRBS-15 PRBS in parallel PRBS in parallel
PRBS-23 PRBS in parallel PRBS in parallel
PRBS-31 PRBS in parallel PRBS in parallel
High Frequency 10101010 x 4 1010101010 x 4
Low Frequency 11110000 x 4 1111100000 x 4
Note to Table 29–1 :
  1. All PRBS patterns are seeded with 11111111.

This core does not support custom data patterns.

Inject Error

Errors can be injected into the data stream by controlling the Inject Error register bits in the register map (refer to the Inject Error Field Descriptions table). When the inject error bit is set, one bit of error is produced by inverting the LSB of the next data beat.

If the inject error bit is set before the core starts generating the data pattern, the error bit is inserted in the first output cycle.

The Inject Error register bit is automatically reset after the error is introduced in the pipeline, so that the next error can be injected.

Preamble Mode

The preamble mode is used for synchronization or word alignment. When the preamble mode is set, the preamble control register sends the preamble character a specified number of times before the selected pattern is generated, so the word alignment block in the receiver can determine the word boundary in the bit stream.

The number of bits (Numbits) determines the number of cycles to output the preamble character in the preamble mode. You can set the number of bits (Numbits) in the preamble control register. The default setting is 0 and the maximum value is 255 bits. This mode can only be set when the data pattern generation core is disabled.