RapidIO Intel FPGA IP User Guide

ID 683884
Date 9/15/2021
Public
Document Table of Contents

1.4. Performance and Resource Utilization

This section contains tables showing IP core variation size and performance examples.

The numbers of LEs, combinational ALUTs, ALMs, and primary logic registers are rounded up to the nearest 100.

Table 3.  RapidIO IP Core Intel® Arria® 10 Resource Utilization The listed results are obtained using the Intel® Quartus® Prime Standard Edition software v17.1 for an Intel® Arria® 10 (10AX115S1F45E1SG) device.
Device Parameters ALMs Combinational ALUTs Logic Registers Memory Blocks (M20K) 2
Variation Mode Baud Rate (Gbaud)
Intel® Arria® 10 Physical and Transport layers, I/O master and slave, and Maintenance master and slave 1x 5.00 12500 15000 17000 58
2x 5.00 13300 15800 17700 52
4x 3.125 12800 15400 17400 52
Table 4.  RapidIO IP Core Intel® Cyclone® 10 GX Resource Utilization The listed results are obtained using the Intel® Quartus® Prime Pro Edition software v18.0 for an Intel® Cyclone® 10 GX (10CX220YU484I5G) device.
Device Parameters ALMs Combinational ALUTs Logic Registers Memory Blocks (M20K)3 2
Variation Mode Baud Rate (Gbaud)
Intel® Cyclone® 10 GX Physical and Transport layers, I/O master and slave, and Maintenance master and slave 1x 5.00 12859 14855 17074 58
2x 5.00 13272 15478 17660 52
4x 3.125 13230 15478 17349 52
Table 5.  RapidIO IP Core V-series FPGA Device Resource Utilization The listed results are obtained using the Intel® Quartus® Prime Standard Edition software v17.1 for the following devices:
  • Arria® V GX (5AGXBB1D4F31C4)
  • Arria® V GZ (5AGZME1H2F35C3)
  • Cyclone® V (5CGXFC7C6F23C6)
  • Stratix® V (5SGXMA7H2F35C2)
Device Parameters ALMs Combinational ALUTs Logic Registers Memory Blocks

(M10K4 or M20K2)

Variation Mode Baud Rate (Gbaud)
Arria® V GX Physical and Transport layers, I/O master and slave, and Maintenance master and slave 1x 5.00 9700 13100 14600 113
2x 3.125 11200 15500 17000 116
4x 11000 15100 17700 116
Arria® V GZ 1x 5.00 9700 13300 14700 63
2x 11400 15100 17600 56
4x 11300 15500 18000 63
Cyclone® V GX 1x 3.125 9600 13700 14500 115
2x 11200 15500 17000 116
4x 2.5 11000 15500 17600 116
Stratix® V GX 1x 5.00 9700 13300 14500 63
2x 11300 15100 17500 57
4x 11000 15000 17600 64
Table 6.  RapidIO IP Core Cyclone IV Resource Utilization The listed results are obtained using the Intel® Quartus® Prime Standard Edition software v17.1 for a Cyclone® IV GX (EP4CGX50CF23C6) device.
Device Parameters Combinational ALUTs Logic Registers Memory Blocks (M9K) 5
Variation Mode Baud Rate (Gbaud)
Cyclone IV GX Physical and Transport layers, I/O master and slave, and Maintenance master and slave 3.125 22400 13600 123
1.25 25200 15600 123
Table 7.  RapidIO IP Core Stratix IV and Legacy Arria Series Resource Utilization The listed results are obtained using the Intel® Quartus® Prime Standard Edition software v17.1 for the following devices:
  • Stratix IV GX (EP4SGX230DF29C2X)
  • Arria II GX (EP2AGX5DF25C4)
  • Arria II GZ (EP2AGZ225FF35C3)
Device Parameters ALMs Combinational ALUTs Logic Registers Memory Blocks (M9K)5
Variation Mode Baud Rate (Gbaud)
Stratix IV GX Physical and Transport layers, I/O master and slave, and Maintenance master and slave 1x 3.125 12000 13000 14000 44
4x 13900 15100 16600 42
Arria® II GX 1x 3.125 12700 12900 13800 115
4x 14000 14200 16000 112
Arria® II GZ 1x 5.00 11900 12700 13900 115
4x 3.125 13700 15000 16400 115
2 M20K for Intel® Arria® 10, Intel® Cyclone® 10 GX, Stratix® V, and Arria® V GZ devices.
3 M20K for Intel® Arria® 10, Intel® Cyclone® 10 GX, Stratix® V, and Arria® V GZ devices.
4 M10K for Arria® V, and Cyclone® V devices.
5 M9K for Cyclone® IV GX, Stratix IV GX, Arria® II GX, and Arria® II GZ devices.