Your search keyword '"Mark Kassab"' showing total 5 results

1. Efficient Test Compression Configuration Selection

Author

Kuen-Jong Lee, Sudhakar M. Reddy, Chong-Siao Ye, Shi-Xuan Zheng, Janusz Rajski, Wu-Tung Cheng, Justyna Zawada, Mark Kassab, Chen Wang, and Fong-Jyun Tsai

Subjects

Computer science, Small number, Range (statistics), Test compression, Electrical and Electronic Engineering, Automatic test pattern generation, Computer Graphics and Computer-Aided Design, Software, Simulation, Test (assessment), Volume (compression), Communication channel, Test data

Abstract

Test costs for large industrial designs increase rapidly in recent years. On-chip test compression hardware has become a pragmatic technology to cut down the overall test costs by reducing test data volume. Determining the input and output channel counts of test compression hardware that results in minimum test data volume is thus a critical issue. In this paper, efficient methods to estimate test pattern counts for an extensive range of input/output counts are developed. These methods require only a small number of ATPG runs. The estimation results can then be utilized to determine the test data volume for each input/output configuration. The configuration with the estimated lowest test data volume thus can be determined. The pattern count results of each configuration for a design can also be used to determine the best suitable configuration when the design is to be embedded in an SoC system.

Published

2022

2. Isometric Test Data Compression

Author

Mark Kassab, Chen Wang, Amit Kumar, Sudhakar M. Reddy, Jerzy Tyszer, Elham Moghaddam, Janusz Rajski, and Nilanjan Mukherjee

Subjects

Engineering, business.industry, Real-time computing, Test compression, Automatic test pattern generation, Residual, Fault (power engineering), Computer Graphics and Computer-Aided Design, Encoding (memory), Compression ratio, System on a chip, Electrical and Electronic Engineering, Cube, business, Algorithm, Software

Abstract

This paper introduces a novel test data compression scheme, which is primarily devised for low-power test applications. It is based on a fundamental observation that in addition to low test cube fill rates, a very few specified bits, necessary to detect a fault, are actually irreplaceable, whereas the remaining ones can be placed in alternative locations (scan cells). The former assignments are used to create residual test cubes and, subsequently, test templates. They control a power-aware decompressor and guide automatic test pattern generation to produce highly compressible test patterns through finding alternative assignments. The proposed approach reduces, in a user-controlled manner, scan shift-in switching rates with minimal hardware modifications. It also elevates compression ratios to values typically unachievable through conventional low-power reseeding-based solutions. Experimental results obtained for large industrial designs illustrate feasibility of the proposed test scheme and are reported herein.

Published

2015

3. Test Time Reduction in EDT Bandwidth Management for SoC Designs

Author

Janusz Rajski, Nilanjan Mukherjee, Jakub Janicki, Grzegorz Mrugalski, Jerzy Tyszer, and Mark Kassab

Subjects

Engineering, Bandwidth management, business.industry, Test compression, Automatic test pattern generation, Computer Graphics and Computer-Aided Design, Automatic test equipment, Embedded system, Encoding (memory), Single-core, System on a chip, Electrical and Electronic Engineering, business, Software, Computer hardware, Communication channel

Abstract

This paper presents novel methods of reducing test time and enhancing test compression for system-on-chip (SoC) designs armed with embedded deterministic test (EDT)-based compression logic. The ability of the proposed scheme to improve the encoding efficiency and test compression, while reducing test application time, is accomplished by appropriate selecting and laying out automatic test equipment channel injectors of every single core EDT-based decompressor as well as appropriate bandwidth management of the entire test procedure combined with new control data optimization techniques. The efficacy of the proposed scheme is validated through experiments on several industrial SoC designs and is reported herein.

Published

2013

4. At-speed scan test with low switching activity

Author

Elham Moghaddam, Mark Kassab, Sudhakar M. Reddy, and Janusz Rajski

Subjects

Engineering, Steady state (electronics), business.industry, Test vector, Logic gate, Electronic engineering, Test compression, Point (geometry), Automatic test pattern generation, business, Power network design, Algorithm, Electronic circuit

Abstract

This paper presents a novel method to generate test vectors that mimic functional operation from switching activity point of view. The method uses states obtained by applying a number of functional clock cycles starting from the scan-in state of a test vector to fill the unspecified scan cell values in test cubes. Experimental results presented for industrial circuits demonstrate the effectiveness of the proposed method.

Published

2010

5. Erratum to 'Test Time Reduction in EDT Bandwidth Management for SoC Designs' [Nov 13 1776-1786]

Author

Jerzy Tyszer, Jakub Janicki, Grzegorz Mrugalski, Nilanjan Mukherjee, Mark Kassab, and Janusz Rajski

Subjects

Bandwidth management, Engineering, Automatic test equipment, business.industry, Bandwidth (signal processing), Electrical engineering, Electrical and Electronic Engineering, Arithmetic, business, Computer Graphics and Computer-Aided Design, Software

Abstract

Due to a production error, an incorrect figure was used for Fig. 8 on p. 1781 in the above paper (ibid., vol. 32, no. 11, pp. 1776-1786, Nov. 2013). The correct figure is presented here.

Published

2014