You need JavaScript to view this
ETDEWEB   /       /    Design and implementation of SFQ programmable clock generators

Design and implementation of SFQ programmable clock generators

Journal Article:

SAVE / SHARE

XML RIS EndNote CSV/Excel JSON

Abstract

We have designed and implemented an SFQ programmable clock generator (PCG), which can generate the variable number of SFQ pulses according to its internal state. The PCG is composed of an SFQ ring oscillator, a control circuit which counts up the number of SFQ pulses and stops the operation of the ring oscillator, and a decoder which defines the initial state of the control circuit. The PCG can generate the variable number of SFQ pulses ranging from 2 to 2{sup N}, where N is the number of T flip-flops in the control circuit. The oscillation frequency of the PCG is designed to be ranging from 6.2 to 18.8 GHz. In this study, we have implemented a PCG generating SFQ pulses ranging from 2 to 2{sup 4} using a cell-based design methodology and confirmed its correct functionality.
Authors:
Publication Date:
Oct 01, 2004
DOI:
https://doi.org/10.1016/j.physc.2004.02.220
Product Type:
Journal Article
Resource Relation:
Journal Name: Physica. C, Superconductivity; Journal Volume: 412-414; Journal Issue: 1-2; Conference: ISS 2003: 16. International symposium on superconductivity: Advances in superconductivity XVI. Part I, Tsukuba (Japan), 27-29 Oct 2003; Other Information: DOI: 10.1016/j.physc.2004.02.220; PII: S0921453404009037; Copyright (c) 2004 Elsevier Science B.V., Amsterdam, The Netherlands, All rights reserved; Country of input: International Atomic Energy Agency (IAEA); PBD: Oct 2004
Subject:
75 CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY; CONTROL; DESIGN; GHZ RANGE; IMPLEMENTATION; MAGNETIC FLUX; OPERATION; OSCILLATIONS; OSCILLATORS; PULSES; SUPERCONDUCTING DEVICES; SUPERCONDUCTORS
OSTI ID:
20618601
Country of Origin:
Netherlands
Language:
English
Other Identifying Numbers:
Journal ID: ISSN 0921-4534; PHYCE6; TRN: NL05S0798062099
Submitting Site:
NLN
Size:
page(s) 1550-1554
Announcement Date:
Aug 21, 2005

Journal Article:

SAVE / SHARE

XML RIS EndNote CSV/Excel JSON

Citation Formats

Ito, M, Nakajima, N, Fujiwara, K, Yoshikawa, N, Fujimaki, A, Terai, H, and Yorozu, S. Design and implementation of SFQ programmable clock generators. Netherlands: N. p., 2004. Web. doi:10.1016/j.physc.2004.02.220.
Ito, M, Nakajima, N, Fujiwara, K, Yoshikawa, N, Fujimaki, A, Terai, H, & Yorozu, S. Design and implementation of SFQ programmable clock generators. Netherlands. https://doi.org/10.1016/j.physc.2004.02.220
Ito, M, Nakajima, N, Fujiwara, K, Yoshikawa, N, Fujimaki, A, Terai, H, and Yorozu, S. 2004. "Design and implementation of SFQ programmable clock generators." Netherlands. https://doi.org/10.1016/j.physc.2004.02.220.
@misc{etde_20618601,
title = {Design and implementation of SFQ programmable clock generators}
 author = {Ito, M, Nakajima, N, Fujiwara, K, Yoshikawa, N, Fujimaki, A, Terai, H, and Yorozu, S}
 abstractNote = {We have designed and implemented an SFQ programmable clock generator (PCG), which can generate the variable number of SFQ pulses according to its internal state. The PCG is composed of an SFQ ring oscillator, a control circuit which counts up the number of SFQ pulses and stops the operation of the ring oscillator, and a decoder which defines the initial state of the control circuit. The PCG can generate the variable number of SFQ pulses ranging from 2 to 2{sup N}, where N is the number of T flip-flops in the control circuit. The oscillation frequency of the PCG is designed to be ranging from 6.2 to 18.8 GHz. In this study, we have implemented a PCG generating SFQ pulses ranging from 2 to 2{sup 4} using a cell-based design methodology and confirmed its correct functionality.}
 doi = {10.1016/j.physc.2004.02.220}
 journal = []
 issue = {1-2}
 volume = {412-414}
 journal type = {AC}
 place = {Netherlands}
 year = {2004}
 month = {Oct}
 }