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Dong Xiang

Bio: Dong Xiang is an academic researcher from Tsinghua University. The author has contributed to research in topics: Automatic test pattern generation & Scan chain. The author has an hindex of 20, co-authored 129 publications receiving 1206 citations. Previous affiliations of Dong Xiang include University of Illinois at Urbana–Champaign & University of Nebraska–Lincoln.


Papers
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Journal ArticleDOI
TL;DR: In this paper, a study of the reclaimation and reuse of non-metallic materials recovered from waste printed circuit boards (PCBs) was presented, and the recovered nonmetals were used to make models, construction materials, composite boards, sewer grates, and amusement park boats.

64 citations

Journal ArticleDOI
TL;DR: A new deadlock avoidance technique is proposed for 3D meshes using only two virtual channels by making full use of the idle channels in a deadlock-free adaptive fault-tolerant routing scheme based on a planar network (PN) fault model.
Abstract: The number of virtual channels required for deadlock-free routing is important for cost-effective and high-performance system design. The planar adaptive routing scheme is an effective deadlock avoidance technique using only three virtual channels for each physical channel in 3D or higher dimensional mesh networks with a very simple deadlock avoidance scheme. However, there exist one idle virtual channel for all physical channels along the first dimension and two idle virtual channels for channels along the last dimension in a mesh network based on the planar adaptive routing algorithm. A new deadlock avoidance technique is proposed for 3D meshes using only two virtual channels by making full use of the idle channels. The deadlock-free adaptive routing scheme is then modified to a deadlock-free adaptive fault-tolerant routing scheme based on a planar network (PN) fault model. The proposed deadlock-free adaptive routing scheme is also extended to n-dimensional meshes still using two virtual channels. Sufficient simulation results are presented to demonstrate the effectiveness of the proposed algorithm.

62 citations

Journal ArticleDOI
TL;DR: It is shown that test application cost, test data volume, and test power with the proposed scan forest architecture can be greatly reduced compared with the conventional full scan design with a single scan chain and several recent scan testing methods.
Abstract: A new scan architecture called reconfigured scan forest is proposed for cost-effective scan testing. Multiple scan flip-flops can be grouped based on structural analysis that avoids new untestable faults due to new reconvergent fanouts. The proposed new scan architecture allows only a few scan flip-flops to be connected to the XOR trees. The size of the XOR trees can be greatly reduced compared with the original scan forest; therefore, area overhead and routing complexity can be greatly reduced. It is shown that test application cost, test data volume, and test power with the proposed scan forest architecture can be greatly reduced compared with the conventional full scan design with a single scan chain and several recent scan testing methods

57 citations

Journal ArticleDOI
TL;DR: A new low-power (LP) scan-based built-in self-test (BIST) technique is proposed based on weighted pseudorandom test pattern generation and reseeding, which supports both pseud orandom testing and deterministic BIST.
Abstract: A new low-power (LP) scan-based built-in self-test (BIST) technique is proposed based on weighted pseudorandom test pattern generation and reseeding. A new LP scan architecture is proposed, which supports both pseudorandom testing and deterministic BIST. During the pseudorandom testing phase, an LP weighted random test pattern generation scheme is proposed by disabling a part of scan chains. During the deterministic BIST phase, the design-for-testability architecture is modified slightly while the linear-feedback shift register is kept short. In both the cases, only a small number of scan chains are activated in a single cycle. Sufficient experimental results are presented to demonstrate the performance of the proposed LP BIST approach.

51 citations

Journal ArticleDOI
TL;DR: A new power-aware test scheduling scheme is proposed, which is extended to cases for multiple port ATEs and Experimental results are presented to show the effectiveness of the proposed method in reducing the NoC test cost and test data volume by comparing to the previous methods.
Abstract: Reuse of network-on-chip (NoC) for test data and test response delivery is attractive. However, previous techniques do not effectively use the bandwidths of the network by delivering test packets to all cores separately, which can make very much test cost and test data volume. The NoC core testing problem is formulated as a unicast-based multicast problem in order to reduce test data delivery time in the NoC. Test response data are forwarded back to the automated test equipment (ATE) via the communication channels using the reverse paths of test data delivery, which are compacted on the way from each processor to the ATE. A new power-aware test scheduling scheme is proposed, which is extended to cases for multiple port ATEs. Test data is further compressed before delivering and a low-power test application scheme is used for the cores because power produced by cores is the bottleneck of NoC test. Experimental results are presented to show the effectiveness of the proposed method in reducing the NoC test cost and test data volume by comparing to the previous methods.

43 citations


Cited by
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Journal ArticleDOI
TL;DR: This review presents a comprehensive description of the current pathways for recycling of polymers, via both mechanical and chemical recycling, and discusses the main challenges and some potential remedies to these recycling strategies, thus providing an academic angle as well as an applied one.

1,352 citations

Book
01 Jul 2006
TL;DR: This book is a comprehensive guide to new DFT methods that will show the readers how to design a testable and quality product, drive down test cost, improve product quality and yield, and speed up time-to-market and time- to-volume.

522 citations

01 Jan 2010
TL;DR: This journal special section will cover recent progress on parallel CAD research, including algorithm foundations, programming models, parallel architectural-specific optimization, and verification, as well as other topics relevant to the design of parallel CAD algorithms and software tools.
Abstract: High-performance parallel computer architecture and systems have been improved at a phenomenal rate. In the meantime, VLSI computer-aided design (CAD) software for multibillion-transistor IC design has become increasingly complex and requires prohibitively high computational resources. Recent studies have shown that, numerous CAD problems, with their high computational complexity, can greatly benefit from the fast-increasing parallel computation capabilities. However, parallel programming imposes big challenges for CAD applications. Fully exploiting the computational power of emerging general-purpose and domain-specific multicore/many-core processor systems, calls for fundamental research and engineering practice across every stage of parallel CAD design, from algorithm exploration, programming models, design-time and run-time environment, to CAD applications, such as verification, optimization, and simulation. This journal special section will cover recent progress on parallel CAD research, including algorithm foundations, programming models, parallel architectural-specific optimization, and verification. More specifically, papers with in-depth and extensive coverage of the following topics will be considered, as well as other topics relevant to the design of parallel CAD algorithms and software tools. 1. Parallel algorithm design and specification for CAD applications 2. Parallel programming models and languages of particular use in CAD 3. Runtime support and performance optimization for CAD applications 4. Parallel architecture-specific design and optimization for CAD applications 5. Parallel program debugging and verification techniques particularly relevant for CAD The papers should be submitted via the Manuscript Central website and should adhere to standard ACM TODAES formatting requirements (http://todaes.acm.org/). The page count limit is 25.

459 citations

Journal ArticleDOI
TL;DR: More than 150 related articles mostly published in the last 15 years and covering the broad areas like characterization of waste printed circuit boards, health hazards associated with the processing and the different routes of recycling have been analyzed to provide a comprehensive overview on this topic as discussed by the authors.

421 citations