From d91c30aefed82271cff189427510921063f5ed70 Mon Sep 17 00:00:00 2001 From: Sagar Karandikar Date: Tue, 5 Aug 2014 16:36:29 -0700 Subject: [PATCH] change README to markdown --- README | 97 ------------------------------------------------------ README.md | 98 +++++++++++++++++++++++++++++++++++++++++++++++++++++++ 2 files changed, 98 insertions(+), 97 deletions(-) delete mode 100644 README create mode 100644 README.md diff --git a/README b/README deleted file mode 100644 index 093bf9f..0000000 --- a/README +++ /dev/null @@ -1,97 +0,0 @@ -========================================================================== -RISC-V ISA Simulator -========================================================================== -# Author : Andrew Waterman, Yunsup Lee -# Date : June 19, 2011 -# Version : (under version control) - -The RISC-V ISA Simulator implements a functional model of one or more -RISC-V processors. - --------------------------------------------------------------------------- -Build Steps --------------------------------------------------------------------------- - -We assume that the RISCV environment variable is set to the RISC-V tools -install path, and that the riscv-fesvr package is installed there. - - % mkdir build - % cd build - % ../configure --prefix=$RISCV --with-fesvr=$RISCV - % make - % [sudo] make install - --------------------------------------------------------------------------- -Compiling and Running a Simple C Program --------------------------------------------------------------------------- - -Install spike (see Build Steps), riscv-gcc, and riscv-pk. - -Write a short C program and name it hello.c. Then, compile it into a RISC-V -ELF binary named hello: - - % riscv-gcc -o hello hello.c - -Now you can simulate the program atop the proxy kernel: - - % spike pk hello - --------------------------------------------------------------------------- -Simulating a New Instruction --------------------------------------------------------------------------- - -Adding an instruction to the simulator requires two steps: - - 1. Describe the instruction's functional behavior in the file - riscv/insns/.h. Examine other instructions - in that directory as a starting point. - - 2. Add the opcode and opcode mask to riscv/opcodes.h. Alternatively, - add it to the riscv-opcodes package, and it will do so for you: - - % cd ../riscv-opcodes - % vi opcodes // add a line for the new instruction - % make install - - 3. Rebuild the simulator. - --------------------------------------------------------------------------- -Interactive Debug Mode --------------------------------------------------------------------------- - -To invoke interactive debug mode, launch spike with -d: - - % spike -d pk hello - -To see the contents of a register (0 is for core 0): - - : reg 0 a0 - -To see the contents of a memory location (physical address in hex): - - : mem 2020 - -To see the contents of memory with a virtual address (0 for core 0): - - : mem 0 2020 - -You can advance by one instruction by pressing . You can also -execute until a desired equality is reached: - - : until pc 0 2020 (stop when pc=2020) - : until mem 2020 50a9907311096993 (stop when mem[2020]=50a9907311096993) - -Alternatively, you can execute as long as an equality is true: - - : while mem 2020 50a9907311096993 - -You can continue execution indefinitely by: - - : r - -At any point during execution (even without -d), you can enter the -interactive debug mode with -. - -To end the simulation from the debug prompt, press - or: - - : q diff --git a/README.md b/README.md new file mode 100644 index 0000000..1866e9a --- /dev/null +++ b/README.md @@ -0,0 +1,98 @@ +RISC-V ISA Simulator +====================== + +Author : Andrew Waterman, Yunsup Lee + +Date : June 19, 2011 + +Version : (under version control) + +About +------------- + +The RISC-V ISA Simulator implements a functional model of one or more +RISC-V processors. + +Build Steps +--------------- + +We assume that the RISCV environment variable is set to the RISC-V tools +install path, and that the riscv-fesvr package is installed there. + + $ mkdir build + $ cd build + $ ../configure --prefix=$RISCV --with-fesvr=$RISCV + $ make + $ [sudo] make install + +Compiling and Running a Simple C Program +------------------------------------------- + +Install spike (see Build Steps), riscv-gcc, and riscv-pk. + +Write a short C program and name it hello.c. Then, compile it into a RISC-V +ELF binary named hello: + + $ riscv-gcc -o hello hello.c + +Now you can simulate the program atop the proxy kernel: + + $ spike pk hello + +Simulating a New Instruction +------------------------------------ + +Adding an instruction to the simulator requires two steps: + + 1. Describe the instruction's functional behavior in the file + riscv/insns/.h. Examine other instructions + in that directory as a starting point. + + 2. Add the opcode and opcode mask to riscv/opcodes.h. Alternatively, + add it to the riscv-opcodes package, and it will do so for you: + + $ cd ../riscv-opcodes + $ vi opcodes // add a line for the new instruction + $ make install + + 3. Rebuild the simulator. + +Interactive Debug Mode +--------------------------- + +To invoke interactive debug mode, launch spike with -d: + + $ spike -d pk hello + +To see the contents of a register (0 is for core 0): + + : reg 0 a0 + +To see the contents of a memory location (physical address in hex): + + : mem 2020 + +To see the contents of memory with a virtual address (0 for core 0): + + : mem 0 2020 + +You can advance by one instruction by pressing . You can also +execute until a desired equality is reached: + + : until pc 0 2020 (stop when pc=2020) + : until mem 2020 50a9907311096993 (stop when mem[2020]=50a9907311096993) + +Alternatively, you can execute as long as an equality is true: + + : while mem 2020 50a9907311096993 + +You can continue execution indefinitely by: + + : r + +At any point during execution (even without -d), you can enter the +interactive debug mode with `-`. + +To end the simulation from the debug prompt, press `- or: + + : q -- 2.30.2