Difference between revisions of "MASC"

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(Synthesis Setup)
(Synthesis Setup)
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                       args=          ; Pass args to tb. Use Quotes to pass multiple args
 
                       args=          ; Pass args to tb. Use Quotes to pass multiple args
 
                       Touch the ttb rtl file to regenerate the ttb
 
                       Touch the ttb rtl file to regenerate the ttb
 +
 +
Step 7:  Type "rake asic:alu full=1 v=1
 +
 +
        Output: (in /mada/users/rigo/mascrtl)
 +
                ./dc_alu.sh
 +
 +
                ./dct_alu.sh
 +
 +
                ./dc_alu.sh
 +
 +
                ./dct_alu.sh
 +
 +
Step 8: type ./dc_alu.sh
  
 
==Testbenching==
 
==Testbenching==

Revision as of 19:59, 9 April 2012

Micro Architecture Santa Cruz wiki projects.

Conferences

Repositories

  • ESESC Superscalar Simulator
  • SCOORE Santa Cruz Out-of-Order Risc Engine
  • MTHD Multitouch Hardware Description
  • Gource Software Version Control Visualization

Students

  • VIM Tips, tricks, and shortcuts

Synthesis Setup

MASC uses a unified compilation environment which requires the use of the command rake to synthesize designs. To synthesize your design follow the steps below:

Step 1: Create a directory, preferably named the same thing as your design top level.

        For example: if my design is named alu, 
        I would create a directory by the name of alu.

Step 2: Create an rtl directory inside the design directory.

        For example: alu/rtl

Step 3: All design rtl should reside in the rtl directory.

        For example: alu/rtl/alu.v  alu/rtl/alu_mem.v alu/rtl/alu_fifo.v

Step 4: In the alu directory create an xml file. The xml file must have the same name as the directory.

        For example: alu/alu.xml

Step 5: The xml file must contain the following tags.

        For example:
  <project name="alu">
        <requires>common</requires>
        <requires>rnet</requires>
        <requires>storage</requires>
        <requires>retry</requires>
        <asic frequency="1400" tech="90" suite="dc"/>
        <asic base="alu"/>
        <catalyst base="alu" test=""/>
        <verify base="alu"/>
        <fpga base="alu" tool="synplify"/>
        <testbench base="alu_tb" suite="vcs">
        <CC></CC>
        <verilog>tests/</verilog>
        <tab>tests/</tab>
        <source>
        </source>
        </testbench>
        <regression target="test">alu_tb</regression>
        <regression target="asic">alu</regression>
        <regression target="fpga">alu</regression>
  </project>

Step 6: From the design directory type rake.

        For example:  (from alu/ )type "rake"
        All options for the current design should be displayed on the screen.
        
        rigo @ mada0 ~/mascrtl/projects/tapeout/alu $ rake
                     (in /mada/users/rigo/mascrtl)
                     rake all                 # Run everything!
                     rake asic:all            # Run all ASIC tasks.
                     rake asic:alu_top        # Run "alu_top" with ASIC.
                     rake catalyst:all        # Create the Catalyst directory 
                     rake catalyst:alu_top    # Create "alu_top" for Catalyst.
                     rake clean               # Remove any temporary products.
                     rake clobber             # Remove any generated file.
                     rake default             # Show a list of available tasks.
                     rake fpga:all            # Run all FPGA tasks. 
                     rake fpga:alu_top        # Run "alu_top" with "synplify" FPGA.
                     rake regression:all      # Run all regression tasks.
                     rake regression:clean    # clean all regression tasks.
                     rake regression:clobber  # clobber all regression tasks.
                     rake rverilog:all        # Create the Verilog/Ruby generated files.
                     rake test:all            # Run all test benches.
                     rake verify:all          # Run all verify tasks.
                     rake verify:alu_top      # Run "alu_top" with Formality.
                     General Options:
                     full=1         ; Let any module to be a target
                     v=1            ; Do not launch program execution
                     FPGA Options:
                     tool=num       ; synplify
                     ASIC Options:
                     tech=num       ; Technology (90, 65...)
                     frequency=num  ; Frequency in MHz (900, 140)
                     suite=string   ; ASIC suite (dc, pt, rc, soc)
                     TEST Options:
                     suite=string   ; Test suite (vsim, vcs, ncsim, gcc)
                     gui=1          ; Invoke gui for testbench (vsim, vcs)
                     console=1      ; Console Mode. (verify, dc_shell) Only with v=1.
                     do="run -all"  ; ModelSim -do line, ex do="do wave.do; run -all" (GUI Only)
                     grid=1         ; Submit testbench(s) to Sun Grid (vsim, vcs)
                     SDF=1          ; Do timing run (must compile with ASIC first)
                     SAIF=1         ; Dump a SAIF and VCD for power analysis (it could be used with SDF=1)
                     ttb=0          ; Disable automatic generation of testbench files
                     args=          ; Pass args to tb. Use Quotes to pass multiple args
                     Touch the ttb rtl file to regenerate the ttb

Step 7: Type "rake asic:alu full=1 v=1

        Output: (in /mada/users/rigo/mascrtl)
                ./dc_alu.sh
                ./dct_alu.sh
                ./dc_alu.sh
                ./dct_alu.sh

Step 8: type ./dc_alu.sh

Testbenching

LEON / Nallatech

  • LEON 3 Complete Place and Route of LEON 3 Core on XC 5VFX130T