Difference between revisions of "Leon3"

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(Tom Golubev's Leon3 Based Logic Analyzer)
(Design Questions)
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Nios II / Leon2 Comparison CoSCPU.pdf
 
Nios II / Leon2 Comparison CoSCPU.pdf
 
Leon2 / MicroBlaze / OpenRISC1200 Comparison Evaluation_of_synthesizable_CPU_cores.pdf
 
Leon2 / MicroBlaze / OpenRISC1200 Comparison Evaluation_of_synthesizable_CPU_cores.pdf
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==Links==
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Comparison of many soft cpus - http://www.1-core.com/library/digital/soft-cpu-cores/
  
 
==Sources==
 
==Sources==

Revision as of 22:24, 11 August 2009

Tom Golubev's Leon3 Based Logic Analyzer

Using NIOSII Cyclone dev board

Leon3 grlib-gpl-1.0.20-b3403

 FPGA Usage (1): EP1C20F400C7
  Configuration:                  LUT Usage (%)        Mem Usage (%)   System MHz 
 (1) Default: noFpu, noMMU               56 %               36 %           135.9 
 (2) noFPU, MMU                          65 %               37 %           134.8 
 (3) Bare                                38 %               18 %           126.1 




(1) Command Used: make distclean && time `make synplify && make quartus-synp`

Design Questions

1) How easy is it to have mixed VHDL / Verilog Design using Synplify?

2) How much throughput is needed?

3) Which bus to use? AHB, APB? or tightly couple to proc (difficult)

==AMBA BUS Notes:== (From 1999 ARM ihi 0011A Document)

AMBA signal names

         All AMBA signals are named such that the first letter of the name indicates which bus
         the signal is associated with. A lower case n in the signal name indicates that the signal
         is active LOW, otherwise signal names are always all upper case.
         Test signals have a prefix T regardless of the bus type. More information on test signals
         can be found in Chapter 6 AMBA Test Methodology.


Important Sources / Documents: Nios II / Leon2 Comparison CoSCPU.pdf Leon2 / MicroBlaze / OpenRISC1200 Comparison Evaluation_of_synthesizable_CPU_cores.pdf


Links

Comparison of many soft cpus - http://www.1-core.com/library/digital/soft-cpu-cores/

Sources

(ASAP 2006).
S. Tillich and J. Großsch¨adl. Instruction Set Extensions for
Efficient AES Implementation on 32-bit Processors. In
Cryptographic Hardware and Embedded Systems — CHES
2006, vol. 4249 of Lecture Notes in Computer Science, pp.
270–284. Springer Verlag, 2006.
A. Hodjat, I. Verbauwhede : Interfacing a high speed crypto
accelerator to an embedded CPU. In: Proceedings of the 38th
Asilomar Conference on Signals, Systems, and Computers, vol.
1, pp. 488–492. IEEE, New York (2004)
P. Schaumont, K. Sakiyama, A. Hodjat, and I. Verbauwhede.
Embedded Software Integration for Coarse-Grain Reconfigurable Systems. 
In Proceedings of the 18th International Parallel and Distributed 
Processing Symposium (IPDPS 2004), pp. 137–142, IEEE CS Press, 2004.
An AES Tightly Coupled Hardware Accelerator in an FPGA-based
Embedded Processor Core