TAP Instrumentation: Difference between revisions

From OpenCompute
Jump to navigation Jump to search
mNo edit summary
mNo edit summary
Line 17: Line 17:
==Recording from Past Calls==
==Recording from Past Calls==
[https://drive.google.com/file/d/1Ctz2eWt2e71y9ChquZGdu6Fc9H5PQZZs/view?usp=sharing 20 Jan 2022]
[https://drive.google.com/file/d/1Ctz2eWt2e71y9ChquZGdu6Fc9H5PQZZs/view?usp=sharing 20 Jan 2022]
[https://drive.google.com/file/d/1Ew3LOo-vUEA_KcP0A_MnnkuHmVzykC6V/view?usp=sharing 27 Jan 2022]
[https://drive.google.com/file/d/1Ew3LOo-vUEA_KcP0A_MnnkuHmVzykC6V/view?usp=sharing 27 Jan 2022]



Revision as of 21:54, 27 January 2022

Screenshot 2020-07-01 16.35.12.png

Instrumentation and Measurement - Workstream #6

Time Appliances Project

Objective

Open source ecosystem for instrumentation and measurement software and tools. Scalable, reliable, cost-effective and efficient.

Project Team

- Lead: Anand Ram (Calnex)
- Lead: Julian St James (Meta)

Meeting invite

9:00am-9:30am PST every First and Third Thursday: Launch Teams Meeting Link

1:00pm-1:30pm PST every Second and Fourth Thursday: Launch Teams Meeting Link

Recording from Past Calls

20 Jan 2022

27 Jan 2022

Hardware Roadmap

Design Objective
#1 Time Card based PPS measurement Scaleable use of the Time Card in a generic server to perform up to 4 PPS measurements

Software

Design Objective
#1 Time Card based PPS measurement Interface with Time Card driver and export PPS measurement data in a useful format

Potential Future Hardware Solutions

Core Hardware Objective
#1 TDC Small, cheap, and low power use-case
#2 PTM controller A PCIe based daughter card that can be synchronized with a high stability source (Time Card) over PCIe to scale PPS measurements
#3 UWB A method for distributing GPS and time to areas where measurements are made, but GPS is not available
#4 DPLL A discrete design based around a DPLL , removing the need for an FPGA