280G W13
This quarter, we will put a focus on resonant and non-traditional clocking. We will have two presenters each day -- about 30-40 min each. Please select papers on either distributed/monolithic LC, rotary clocking, or standing wave clocking or similar non-traditional clocking papers.
Date | Presenter | Topic/Paper | |
---|---|---|---|
1/16/13 | Rafael | Resonant-Clock Latch-Based Design | |
1/23/13 | Jeff | A low-power SRAM with resonantly powered data, address, word, and bit lines | |
1/30/13 | Nihan | ||
2/6/13 | Ping-Yao | ||
2/13/13 | Moo Sung Chae | Thesis defense (10:30AM ~ 12:00) | |
2/20/13 | Ignatius | ||
2/27/13 | Riadul | Interconnect scaling (and how it impacts inductance/inductor design?) | |
3/6/13 | |||
3/13/13 | None |
Resonant Papers:
Jitter Characteristic in Charge Recovery Resonant Clock Distribution,
A Resonant Global Clock Distribution for the Cell Broadband Engine Processor
Rotary traveling-wave oscillator arrays: A new clock technology
These might be related: Custom Rotary Clock Router, Custom topology rotary clock router with tree subnetworks
1.56 GHz On-chip Resonant Clocking in 130nm CMOS
1.1 to 1.6GHz Distributed Differential Oscillator Global Clock Network
These two would go together: Distributed LC resonant clock tree synthesis, A methodology for local resonant clock synthesis using lc-assisted local clock buffers
Distributed LC resonant clock grid synthesis
Library-aware resonant clock synthesis
These might be related:
A 4.6GHz resonant global clock distribution network,
Design of resonant global clock distributions,
Uniform-phase uniform-amplitude resonant-load global clock distributions,
A Resonant Global Clock Distribution for the Cell Broadband Engine Processor
Implementing multiphase resonant clocking on a finite-impulse response filter