-
Notifications
You must be signed in to change notification settings - Fork 554
New issue
Have a question about this project? Sign up for a free GitHub account to open an issue and contact its maintainers and the community.
By clicking “Sign up for GitHub”, you agree to our terms of service and privacy statement. We’ll occasionally send you account related emails.
Already on GitHub? Sign in to your account
Integration of 6T SRAM with the Ibex core #2194
Comments
This is slightly confusing to me. Your tool/environment description sounds very much like you are at the frontend stage (using Verilator and Spike, and no mention of FPGA tools). In that case, I'd strongly recommend leaving things as they are in the repository. If you are just doing Verilator simulations, the memory implementation won't matter anyway. Are you trying to use |
We are trying to run the simulation and not using any FPGA targets. We are trying to test the working of our 6T SRAM behavioural model with the Ibex core. We do not want to test it with an FPGA and just do a Verilator simulation on it. We want to load the elf programs and map the stack memory into this 6T SRAM. I see the use readmemh() functions for reading the MemInitFile, which is stored in an array. The problem here is I am stuck on how to write the values from the BRAM/array to our 6T SRAM after the simulation begins, to see the working of our SRAM. |
I encountered the same issue as you. I am currently aiming to tape out a chip using SMIC's 180nm process. I am keeping the ibex core unchanged, but I need to embed SRAM on the chip. I use SMIC's memory compiler to generate the RAM's Verilog and liberty files, but I need to verify whether this SRAM can connect well with the ibex core and function properly. This is because the read/write timing of the SRAM generated by the memory compiler is different from that of prim_ram_2p. The prim_ram_2p can read out data in the current cycle, while the SRAM generated by the memory compiler requires a delay of one cycle to read out data. Therefore, I need to verify whether this SRAM works well; otherwise, I will need to design additional timing control logic. I want to use the Ibex Simple System for verification. My steps are as follows:
However, the simulation reports errors. It seems that the vmem is not read into the SRAM, and the instructions in the trace_core_00000000.log file are empty, showing INVALID. Is it possible that the SRAM cannot use the $readmemh command to load data? How should I proceed to verify it? |
Hi there, Thank you both for the messages. For this specific problem, I think we're trying to ensure we can actually load up a block of data into memory. I think you've already found the implementation of You might have worked this out already, but the way we do it in our RAM primitives is pretty simple. The For your more specific memory, you're going to have to do something slightly cleverer, but the basic idea should work the same. You can define a DPI task called The simplest approach for the You'll also have to implement |
Thank you very much for your response. I fully understand your point. I have another question: if I need to tape out an SoC with an embedded Ibex core, how should I initialize the memory? Should I refer to the implementation method in the Ibex demo system and also embed an on-chip debug module (dm_top.v)? Or is there a better method? |
We are trying to use our 6T SRAM design instead of the BRAM for simulation. I understand that we would still need the BRAM to copy the image(vmem or elf) into the memory. My idea is to copy the image into the BRAM and then write it into our SRAM design. I am considering instantiating our SRAM design instead of ram_1p/ram_2p in the RTL design. We are trying to use 1MB SRAM. I need some advice and help to understand the files I need to modify apart from the core files used by fusesoc, on how to load the image into the BRAM and then write it into our SRAM before the start of simulation. Please correct me if I am wrong here.
My Environment
EDA tool and version:
I am using Verilator for simulation and Spike as ISS
Operating system:
The operating system is CentOS 7
Version of the Ibex source code:
The text was updated successfully, but these errors were encountered: