Difference between revisions of "Shared Correlation Accelerator for an RF SoC"
From iis-projects
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===Status: In Progress === | ===Status: In Progress === | ||
: Student: Sascha Giger | : Student: Sascha Giger | ||
− | : Supervision: [[:User:Lstefan | Stefan Lippuner]] | + | : Supervision: [[:User:Lstefan | Stefan Lippuner]], [[:User:Msalomon | Mauro Salomon]] |
Revision as of 17:16, 9 March 2018
Contents
Introduction
We are currently working on designing Radio Frequency (RF) Systems on a chip (SoCs) for the Internet of Things (IoT). Requirements for these devices often include data connectivity and location information. A drone may, for instance, use both GPS and cellular positioning to increase the accuracy of the location estimate. We want to integrate both functionalities on a single chip.
Positioning and network synchronization rely on performing a large number of cross-correlations in real-time. Due to the large throughput requirements, large accelerators are required. Instead of using a dedicated circuit for each standard, we would like to share a single, flexible accelerator for all these tasks.
Project Description
The goal of this project is, to develop a shared correlation accelerator for our RF SoC. This unit should support both positioning, as well as the synchronization for NB-IoT and eMTC. To do this, you will study the algorithms to quickly calculate a large number of cross-correlations. Using this knowledge, you will develop the accelerator in VHDL, or using High-Level Synthesis (HLS). It should be able to meet the throughput requirements of 100M correlation results/s, while keeping the area as low as possible.
Once you have implemented and verified the unit, you may tape out your own chip, or test it in our FPGA testbed.
Status: In Progress
- Student: Sascha Giger
- Supervision: Stefan Lippuner, Mauro Salomon
Character
- 20% Theory, Algorithms and Simulation
- 50% Implementation (HLS/VHDL)
- 30% ASIC Implementation / FPGA Integration