OpenCores
URL https://opencores.org/ocsvn/eco32/eco32/trunk

Subversion Repositories eco32

[/] [eco32/] [trunk/] [stdalone/] [README] - Diff between revs 97 and 98

Go to most recent revision | Show entire file | Details | Blame | View Log

Rev 97 Rev 98
Line 1... Line 1...
There are four different methods to run a standalone program.
There are four different ways to run a standalone program.
 
 
1. Simulator: Load the program with the '-l' command-line option
1. Simulator: Load the program with the '-l' command-line option
   into the simulated memory; use '-a 0x10000' to set the load
   into the simulated memory; use '-a 0x10000' to set the load
   address. Each Makefile has a target 'run' to automate this.
   address. Each Makefile has a target 'run' to automate this.
 
 
Line 9... Line 9...
   in the subdirectory build/run). Boot this disk. Choose the
   in the subdirectory build/run). Boot this disk. Choose the
   partition with the bootable EOS32 file system, and enter
   partition with the bootable EOS32 file system, and enter
   '/boot/' as the 'path to kernel'.
   '/boot/' as the 'path to kernel'.
 
 
3. FPGA: Load the program with the help of the load server. Type
3. FPGA: Load the program with the help of the load server. Type
   'loadserv ' on the PC side, and 'load 1' on the
   'loadserv  ' on the PC side, and
   FPGA side (which runs the machine monitor).
   'load 1' on the FPGA side (which runs the machine monitor).
 
 
4. FPGA: Pack the program onto a simulated disk (this will
4. FPGA: Pack the program onto a simulated disk and make the disk
 
   available for use with the help of the disk server (this will
   happen automatically if you use the Makefile target 'run-server'
   happen automatically if you use the Makefile target 'run-server'
   in the subdirectory build/run). Make the disk available for
   in the subdirectory build/run). Type 'boot 1' on the FPGA side
   use with the help of the disk server. Type 'diskserv '
   (which runs the machine monitor), and proceed as in 2.
   on the PC side, and 'boot 1' on the FPGA side (which runs the
 
   machine monitor). Then proceed as in 2.
 
   (which runs the machine monitor), and proceed as in 2.
 

powered by: WebSVN 2.1.0

© copyright 1999-2024 OpenCores.org, equivalent to Oliscience, all rights reserved. OpenCores®, registered trademark.