NORA: a racefree dynamic CMOS technique for pipelined logic structures
N.F. Goncalves,H. De Man +1 more
TLDR
A new dynamic CMOS technique which is fully racefree, yet has high logic flexibility, and logic inversion is provided, which means higher logic flexibility and less transistors for the same function.Abstract:
Describes a new dynamic CMOS technique which is fully racefree, yet has high logic flexibility. The circuits operate racefree from two clocks /spl phi/ and /spl phi/~ regardless of their overlap time. In contrast to the critical clock skew specification in the conventional CMOS pipelined circuits, the proposed technique imposes no restriction to the amount of clock skew. The main building blocks of the NORA technique are dynamic CMOS and C/SUP 2/MOS logic functions. Static CMOS functions can also be employed. Logic composition rules to mix dynamic CMOS, C/SUP 2/MOS, and conventional CMOS will be presented. Different from Domino technique, logic inversion is also provided. This means higher logic flexibility and less transistors for the same function. The effects of charge redistribution, noise margin, and leakage in the dynamic CMOS blocks are also analyzed. Experimental results show the feasibility of the principles discussed.read more
Citations
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WAM 2.5: A Pipelined 32b Microprocessor with 13Kb of Cache Memory
Alan D. Berenbaum,Brian W. Colbry,David R. Ditzel,R. Don Freeman,Hubert R. McLellan,Masakazu Shoji,T Bell +6 more
TL;DR: A Reduced Instruction Set Computer containing 172K transistors in 1.5μm technology will be described, which contains caches for prefetch buffer, decoded instructions and stack.
Proceedings Article
Design of a 12 GHz Low-Power Extended True Single Phase Clock (E-TSPC) Prescaler in 0.13µm CMOS technology
TL;DR: The design of a 12 GHz Low-Power Extended True Single Phase Clock (E-TSPC) Prescaler and the results are compared to other state of the art E-T SPC dividers showing that the proposed design can reach high speed with low power and low area consumption.
Patent
Device and method for dual-mode logic
TL;DR: In this paper, a dual-mode logic gate for selectable operation in either of static and dynamic modes is defined, which includes: a static gate which includes at least one logic input and a logic output; a mode selector, configured for outputting a turn-off signal to select static mode operation and a dynamic clock signals to select dynamic mode operation; and a switching element associated with the mode selector static gate, comprising a first input connected to a constant voltage, a second input for inputting the mode selection signal from the selector, and an output connected to the logic output
Proceedings ArticleDOI
Extended abstract: A high-performance, low-overhead, power-analysis-resistant, single-rail logic style
Eric Menendez,Ken Mai +1 more
TL;DR: Three-phase single-Rail precharge logic (TSPL), a single-rail dynamic logic family with high DPA resistance and significantly lower overheads in performance, area, and power than other DPA-resistant logic styles are presented.
Journal ArticleDOI
A Design Technique for Energy Reduction in NORA CMOS Logic
TL;DR: Simulation results from NORA designs in a 0.18-mum CMOS technology are presented to demonstrate the effectiveness of the proposed technique to achieve both energy and energy-delay product reduction.
References
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High-density CMOS ROM arrays
TL;DR: The CMOSROMs produced are competitive with NMOS ROMs in both density and speed, yet retain all of the advantages of static CMOS circuits such as 1-/spl mu/W power dissipation, full 2.8-15 V voltage operating range, and full -55/spl deg/C-125/spl Deg/C temperature range.
Proceedings Article
NP-CMOS: A Racefree - Dynamic CMOS Technique for Pipelined Logic Structures
N.F. Gqncalves,H. De Man +1 more
TL;DR: In this paper, a new dynamic CMOS circuit technique using n and p logic trees is presented, which operates race-free from two clocks O and O regardless of their overlap time.
Journal ArticleDOI
High-speed programmable logic arrays in ESFI SOS technology
E. Hebenstreit,K. Horninger +1 more
TL;DR: Exploratory MOS programmable logic arrays (PLA's) operating up to a clock frequency of 22 MHz have been realized and successfully operated as discussed by the authors, and the problems arising with the use of these dynamic logic gates are discussed and different circuits are presented.