280G W13

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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

A Resonant Clock 200MHz ARM926EJ-STM Microcontroller

1/23/13 Jeff A low-power SRAM with resonantly powered data, address, word, and bit lines
1/30/13 Nihan Distributed LC resonant clock grid synthesis

Library-aware resonant clock synthesis

2/6/13 Ping-Yao Optical clock distribution to silicon chips

Optoelectronics-VLSI system integration Technological challenges

2/13/13 Moo Sung Chae Thesis defense (10:30AM ~ 12:00)
2/20/13 Ignatius
2/27/13 None
3/6/13 Riadul Analytical Modeling and Characterization of Deep-Submicrometer Interconnect
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