UPF

November 27, 2019

Managing code coverage to achieve verification closure in low-power SoCs

A look at some of the key techniques needed to ensue good code coverage during the verification of low-power SoC designs.
Article  |  Topics: EDA - Verification  |  Tags: , ,   |  Organizations: ,
October 16, 2019
Tom Anderson is a technical marketing consultant working with multiple EDA vendors, including AMIQ EDA. His previous roles have included vice president of marketing at Breker Verification Systems, vice president of applications engineering at 0-In Design Automation, vice president of engineering at IP pioneer Virtual Chips, group director of product management at Cadence, and director of technical marketing at Synopsys. He holds a Master of Science degree in Computer Science and Electrical Engineering from M.I.T. and a Bachelor of Science degree in Computer Systems Engineering from the University of Massachusetts at Amherst.

Achieving the interactive development of low-power designs

Power intent files have increased efficiency and the use of an IDE can prevent them becoming outdated as a design evolves.
Expert Insight  |  Topics: EDA - IC Implementation, Verification  |  Tags: , , , , , , , , , ,   |  Organizations:
February 6, 2019

Low-power debugging made easy

UPF provides a useful way to describe the power-management strategies that should be applied to a design, but using it introduces a number of challenges during low-power debugging.
Article  |  Topics: EDA - Verification  |  Tags: , ,   |  Organizations:
December 3, 2018
Rahul Chirania is a staff applications engineer with the static verification team at Synopsys.

Verifying clock domain crossings in UPF-based low-power SoCs

The verification challenges of using low-power design techniques to enable advanced power-management strategies in complex SoCs.
Expert Insight  |  Topics: EDA - Verification  |  Tags: , , , ,   |  Organizations:
October 8, 2015
Amol Herlekar, Synopsys

Preparing for low-power verification success: setting objectives and measuring outcomes

A look at what it takes to verify low-power SoC designs, including setting objectives and measuring outcomes in a UPF-driven verification strategy
Expert Insight  |  Topics: IP - Design Management, EDA - Verification  |  Tags: , ,   |  Organizations: ,
August 5, 2015
Power switch

‘Even the software guys are starting to talk in milliwatts’

System-level power is the next frontier for a power-intent standard – or rather a collection of them – being developed by a partnership between Accellera, Si2 and the IEEE.
Article  |  Topics: Embedded - Architecture & Design, EDA - ESL  |  Tags: , , , ,   |  Organizations: , , , , ,
September 17, 2013

Managing power intent, signal isolation and level shifting in a UPF-based multi-voltage IC design

Power intent, signal isolation and level shifting can all be controlled in a UPF-based multi-voltage IC design through careful coding.
Article  |  Topics: EDA - IC Implementation  |  Tags: , , , ,   |  Organizations:
September 3, 2013

Choosing a block representation in a UPF-based hierarchical multi-voltage IC design

This article looks at the way in which various representations of a block of a design have different implications in a UPF based power-aware hierarchical design flow.
Article  |  Topics: EDA - IC Implementation  |  Tags: , , ,   |  Organizations:
June 2, 2013

IEEE 1801-2013 (UPF 2.1)

IEEE 1801-2013 updates and refines the Unified Power Format for low-power VLSI design, reflecting changes in power modeling and verification.
Guide  |  Topics: EDA - IC Implementation, Verification  |  Tags: , , , ,
January 16, 2012

Unified Power Format (UPF)

The IEEE Unified Power Format (UPF) standard is intended to support low-power designs that use switchable power states and power islands.
Guide  |  Topics: EDA - IC Implementation  |  Tags: , , , ,

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