Difference between revisions of "Resource Partitioning of RPC DRAM"
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** [[:User:Tbenz | Thomas Benz]]: [mailto:tbenz@iis.ee.ethz.ch tbenz@iis.ee.ethz.ch] | ** [[:User:Tbenz | Thomas Benz]]: [mailto:tbenz@iis.ee.ethz.ch tbenz@iis.ee.ethz.ch] | ||
** [[:User:Aottaviano | Alessandro Ottaviano]]: [mailto:aottaviano@iis.ee.ethz.ch aottaviano@iis.ee.ethz.ch] | ** [[:User:Aottaviano | Alessandro Ottaviano]]: [mailto:aottaviano@iis.ee.ethz.ch aottaviano@iis.ee.ethz.ch] | ||
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= Introduction = | = Introduction = | ||
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− | The goal | + | The project's goal is to investigate and implement resource partitioning schemes [4] in the memory-controller to improve predicatability of memory accesses. For example, Arm Memory System Resource Partitioning and Monitoring (MPAM)[5] is a recent example of such a scheme. The memory controller is part of a larger platform hosting a linux capable RISC-V 64-bit core. |
* Get familiar with RPC DRAM protocol and the controller design | * Get familiar with RPC DRAM protocol and the controller design |
Latest revision as of 09:32, 15 January 2024
Contents
Overview
Status: Available
- Type: Bachelor or Semester Thesis
- Professor: Prof. Dr. L. Benini
- Supervisors:
Introduction
Recently, a new class of off-chip memories hit the market, targeting low area and low pin-count FPGAs and ASICs. These reduced pin count DDR (RPC DDR) [1] memories only require a simple on-chip PHY and can operate with regular digital IO pads making them usable on our ASICs.
In previous projects, we implemented a memory-controller for RPC DRAM and taped it out on two different chips [2][3].
Project
The project's goal is to investigate and implement resource partitioning schemes [4] in the memory-controller to improve predicatability of memory accesses. For example, Arm Memory System Resource Partitioning and Monitoring (MPAM)[5] is a recent example of such a scheme. The memory controller is part of a larger platform hosting a linux capable RISC-V 64-bit core.
- Get familiar with RPC DRAM protocol and the controller design
- Study existing resource partitioning techniques
- Implement and verify on FPGA
- Benchmark results
Character
- 20% Literature Review
- 60% Hardware Design
- 20% Verification and Bechmarking
Prerequisites
- Strong interest in computer architecture and memory systems
- Experience with digital design in SystemVerilog as taught in VLSI I
- Preferred: Knowledge or experience with AXI and RISC-V