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2020 – today
- 2024
- [j85]Nirupama Ravi
, C. Mani Krishna
, Israel Koren
:
Mix-Zones as an Effective Privacy Enhancing Technique in Mobile and Vehicular Ad-hoc Networks. ACM Comput. Surv. 56(12): 308:1-308:33 (2024) - [j84]Wang Xu
, Israel Koren
:
A Scalable Wear Leveling Technique for Phase Change Memory. ACM Trans. Storage 20(1): 3:1-3:26 (2024) - [c155]Glenn H. Chapman, Alireza Farahmandpour, Amit Chakma, Israel Koren, Zahava Koren:
Image Degradation due to Interacting Hot Pixels and SEUs. DFT 2024: 1-6 - 2023
- [c154]Glenn H. Chapman, Klinsmann J. Coelho Silva Meneses, Linda Wu, Israel Koren, Zahava Koren:
Image Degradation in Time Due to Interacting Hot Pixels. DFT 2023: 1-6 - 2022
- [c153]Glenn H. Chapman, Klinsmann J. Coelho Silva Meneses, Israel Koren, Zahava Koren:
Image Degradation due to Interacting Adjacent Hot Pixels. DFT 2022: 1-6 - 2021
- [j83]Shikang Xu, Israel Koren, C. Mani Krishna
:
Adaptive workload adjustment for cyber-physical systems using deep reinforcement learning. Sustain. Comput. Informatics Syst. 30: 100525 (2021) - [c152]Glenn H. Chapman, Simone Neufeld, Klinsmann J. Coelho Silva Meneses, Israel Koren, Zahava Koren:
Dependence of SEUs in Digital Cameras on Pixel size and Elevation. DFT 2021: 1-4 - 2020
- [j82]Shikang Xu, Israel Koren, C. Mani Krishna:
Enhancing dependability and energy efficiency of cyber-physical systems by dynamic actuator derating. Sustain. Comput. Informatics Syst. 28: 100411 (2020) - [j81]Shikang Xu
, Israel Koren
, C. M. Krishna
:
Thermal Aware Task Scheduling for Enhanced Cyber-Physical Systems Sustainability. IEEE Trans. Sustain. Comput. 5(4): 581-593 (2020) - [c151]Leandro Santiago de Araújo
, Leandro A. J. Marzulo, Tiago A. O. Alves, Felipe M. G. França
, Israel Koren, Sandip Kundu:
Building a portable deeply-nested implicit information flow tracking. CF 2020: 150-157 - [c150]Glenn H. Chapman, Rohan Thomas, Klinsmann J. Coelho Silva Meneses, Ruoyi Zhao, Israel Koren, Zahava Koren:
Using digital imagers to characterize the dependence of energy and area distributions of SEUs on elevation. DFT 2020: 1-4
2010 – 2019
- 2019
- [j80]Nirupama Ravi
, C. Mani Krishna
, Israel Koren:
Enhancing Vehicular Anonymity in ITS: A New Scheme for Mix Zones and Their Placement. IEEE Trans. Veh. Technol. 68(11): 10372-10381 (2019) - [c149]Wang Xu, Israel Koren:
Designing a secure DRAM+NVM hybrid memory module. CF 2019: 251-255 - [c148]Glenn H. Chapman, Rohan Thomas, Klinsmann J. Coelho Silva Meneses, Bifei Huang, Hao Yang, Israel Koren, Zahava Koren:
Detecting SEUs in Noisy Digital Imagers with small pixels. DFT 2019: 1-6 - [c147]Glenn H. Chapman, Rohan Thomas, Klinsmann J. Coelho Silva Meneses, Israel Koren, Zahava Koren:
Image degradation from hot pixel defects with pixel size shrinkage. IMSE 2019: 1-7 - 2018
- [c146]Anderson Luiz Sartor, Arthur Francisco Lorenzon, Sandip Kundu, Israel Koren, Antonio C. S. Beck:
Adaptive and polymorphic VLIW processor to optimize fault tolerance, energy consumption, and performance. CF 2018: 54-61 - [c145]Glenn H. Chapman, Rohan Thomas, Klinsmann J. Coelho Silva Meneses, Israel Koren, Zahava Koren:
Analysis of Single Event Upsets Based on Digital Cameras with Very Small Pixels. DFT 2018: 1-6 - [c144]Glenn H. Chapman, Rohan Thomas, Klinsmann J. Coelho Silva Meneses, Parham Purbakht, Israel Koren, Zahava Koren:
Exploring Hot Pixel Characteristics for 7 to 1.3 micron Pixels. IMSE 2018: 1-6 - [c143]Shikang Xu, Israel Koren, C. M. Krishna:
Energy and Dependability Enhancement by Dynamic Actuator Derating in Cyber-Physical Systems. IGSC 2018: 1-8 - [c142]Israel Koren:
Detecting and counteracting benign faults and malicious attacks in cyber physical systems. MECO 2018: 2 - [c141]Eduardo H. M. Cruz, Matthias Diener, Matheus S. Serpa
, Philippe Olivier Alexandre Navaux, Laércio Lima Pilla
, Israel Koren:
Improving Communication and Load Balancing with Thread Mapping in Manycore Systems. PDP 2018: 93-100 - [e10]John Goodacre, Mikel Luján, Giovanni Agosta, Alessandro Barenghi, Israel Koren, Gerardo Pelosi:
Proceedings of the Fifth Workshop on Cryptography and Security in Computing Systems, CS2 2018, Manchester, United Kingdom, January 24, 2018. ACM 2018, ISBN 978-1-4503-6374-7 [contents] - 2017
- [j79]Matthias Diener
, Eduardo H. M. Cruz, Marco A. Z. Alves
, Philippe O. A. Navaux, Israel Koren:
Affinity-Based Thread and Data Mapping in Shared Memory Systems. ACM Comput. Surv. 49(4): 64:1-64:38 (2017) - [j78]C. M. Krishna, Israel Koren:
Thermal-aware management techniques for cyber-physical systems. Sustain. Comput. Informatics Syst. 15: 39-51 (2017) - [j77]Ye Xu, Israel Koren, C. Mani Krishna:
AdaFT: A Framework for Adaptive Fault Tolerance for Cyber-Physical Systems. ACM Trans. Embed. Comput. Syst. 16(3): 79:1-79:25 (2017) - [c140]Francis B. Moreira, Matthias Diener
, Philippe O. A. Navaux, Israel Koren:
Data mining the memory access stream to detect anomalous application behavior. Conf. Computing Frontiers 2017: 45-52 - [c139]Daniel Oliveira
, Vinicius Fratin, Philippe Olivier Alexandre Navaux, Israel Koren, Paolo Rech
:
CAROL-FI: an Efficient Fault-Injection Tool for Vulnerability Evaluation of Modern HPC Parallel Accelerators. Conf. Computing Frontiers 2017: 295-298 - [c138]Glenn H. Chapman, Parham Purbakht, Peter Le, Israel Koren, Zahava Koren:
Exploring soft errors (SEUs) with digital imager pixels ranging from 7 to 1.3 μm. DFT 2017: 1-4 - [c137]Glenn H. Chapman, Rahul Thomas, Israel Koren, Zahava Koren:
Hot Pixel Behavior as Pixel Size Reduces to 1 micron. IMSE 2017: 39-45 - [c136]Israel Koren:
Keynote speech: IGSC 2017: Green computing through adaptive multi-core architectures. IGSC 2017: 1 - [c135]Daniel Oliveira
, Laércio Lima Pilla
, Nathan DeBardeleben, Sean Blanchard, Heather Quinn, Israel Koren, Philippe O. A. Navaux, Paolo Rech
:
Experimental and analytical study of Xeon Phi reliability. SC 2017: 28 - 2016
- [j76]Mayank Chhablani, Israel Koren, C. M. Krishna:
Online Inertia-Based Temperature Estimation for Reliability Enhancement. J. Low Power Electron. 12(3): 159-171 (2016) - [j75]Francis B. Moreira, Marco A. Z. Alves
, Matthias Diener
, Philippe O. A. Navaux, Israel Koren:
A dynamic block-level execution profiler. Parallel Comput. 54: 15-28 (2016) - [j74]Sudarshan Srinivasan, Nithesh kurella, Israel Koren, Sandip Kundu
:
Exploring Heterogeneity within a Core for Improved Power Efficiency. IEEE Trans. Parallel Distributed Syst. 27(4): 1057-1069 (2016) - [c134]Shmuel Wimer, Israel Koren:
Energy efficient deeply fused dot-product multiplication architecture. ASAP 2016: 115-122 - [c133]Glenn H. Chapman, Rahul Thomas, Rohan Thomas, Israel Koren, Zahava Koren:
Experimental study and analysis of soft and permanent errors in digital cameras. DFT 2016: 11-14 - [c132]Glenn H. Chapman, Rahul Thomas, Rohan Thomas, Klinsmann J. Coelho Silva Meneses, Tommy Q. Yang, Israel Koren, Zahava Koren:
Increases in Hot Pixel Development Rates for Small Digital Pixel Sizes. IMSE 2016: 1-6 - [c131]Sudarshan Srinivasan, Israel Koren, Sandip Kundu
:
Improving performance per Watt of non-monotonic Multicore Processors via bottleneck-based online program phase classification. ICCD 2016: 528-535 - [c130]Sudarshan Srinivasan, Nithesh kurella, Israel Koren, Sandip Kundu:
Dynamic Reconfiguration vs. DVFS: A Comparative Study on Power Efficiency of Processors. VLSID 2016: 563-564 - [e9]Martin Palkovic, Giovanni Agosta, Alessandro Barenghi, Israel Koren, Gerardo Pelosi:
Proceedings of the Third Workshop on Cryptography and Security in Computing Systems, CS2@HiPEAC, Prague, Czech Republic, January 20, 2016. ACM 2016, ISBN 978-1-4503-4065-6 [contents] - 2015
- [j73]Rance Rodrigues, Israel Koren, Sandip Kundu
:
Does the Sharing of Execution Units Improve Performance/Power of Multicores? ACM Trans. Embed. Comput. Syst. 14(1): 17:1-17:24 (2015) - [c129]Glenn H. Chapman, Rahul Thomas, Rohan Thomas, Klinsmann J. Coelho Silva Meneses, Tommy Q. Yang, Israel Koren, Zahava Koren:
Single Event Upsets and Hot Pixels in digital imagers. DFTS 2015: 41-46 - [c128]Glenn H. Chapman, Rahul Thomas, Rohit Thomas, Zahava Koren, Israel Koren:
Enhanced correction methods for high density hot pixel defects in digital imagers. IMSE 2015: 94030T - [c127]Shikang Xu, Israel Koren, C. M. Krishna:
Improving processor lifespan and energy consumption using DVFS based on ILP monitoring. IGSC 2015: 1-6 - [c126]Sudarshan Srinivasan, Israel Koren, Sandip Kundu:
Online mechanism for reliability and power-efficiency management of a dynamically reconfigurable core. ICCD 2015: 327-334 - [e8]Andy D. Pimentel, Stephan Wong, Gerardo Pelosi, Israel Koren, Giovanni Agosta, Alessandro Barenghi:
Proceedings of the Second Workshop on Cryptography and Security in Computing Systems, CS2@HiPEAC 2015, Amsterdam, Netherlands, January 19-21, 2015. ACM 2015, ISBN 978-1-4503-3187-6 [contents] - 2014
- [j72]Shmuel Wimer, Amir Albeck, Israel Koren:
A low energy dual-mode adder. Comput. Electr. Eng. 40(5): 1524-1537 (2014) - [j71]R. C. Ravindran, C. Mani Krishna, Israel Koren, Zahava Koren:
Scheduling imprecise task graphs for real-time applications. Int. J. Embed. Syst. 6(1): 73-85 (2014) - [j70]Alessandro Barenghi
, Cédric Hocquet, David Bol, François-Xavier Standaert
, Francesco Regazzoni
, Israel Koren:
A Combined Design-Time/Test-Time Study of the Vulnerability of Sub-Threshold Devices to Low Voltage Fault Attacks. IEEE Trans. Emerg. Top. Comput. 2(2): 107-118 (2014) - [j69]Shmuel Wimer, Israel Koren:
Design Flow for Flip-Flop Grouping in Data-Driven Clock Gating. IEEE Trans. Very Large Scale Integr. Syst. 22(4): 771-778 (2014) - [c125]Sudarshan Srinivasan, Nithesh kurella, Israel Koren, Rance Rodrigues, Sandip Kundu:
A runtime support mechanism for fast mode switching of a self-morphing core for power efficiency. PACT 2014: 491-492 - [c124]Glenn H. Chapman, Rohit Thomas, Rahul Thomas, Israel Koren, Zahava Koren:
Improved correction for hot pixels in digital imagers. DFT 2014: 116-121 - [c123]Glenn H. Chapman, Rohit Thomas, Zahava Koren, Israel Koren:
Correcting high-density hot pixel defects in digital imagers. IMSE 2014: 90220G - [c122]Arunachalam Annamalai, Rance Rodrigues, Israel Koren, Sandip Kundu:
Reducing Energy per Instruction via Dynamic Resource Allocation and Voltage and Frequency Adaptation in Asymmetric Multicores. ISVLSI 2014: 436-441 - [c121]Francis B. Moreira, Marco A. Z. Alves
, Israel Koren:
Profiling and Reducing Micro-Architecture Bottlenecks at the Hardware Level. SBAC-PAD 2014: 222-229 - [c120]Rance Rodrigues, Israel Koren, Sandip Kundu:
Performance and Power Benefits of Sharing Execution Units between a High Performance Core and a Low Power Core. VLSID 2014: 204-209 - [e7]Jens Knoop, Valentina Salapura, Israel Koren, Gerardo Pelosi:
Proceedings of the First Workshop on Cryptography and Security in Computing Systems, CS2@HiPEAC 2014, Vienna, Austria, January 20, 2014. ACM 2014, ISBN 978-1-4503-2484-7 [contents] - 2013
- [j68]Nitin Prakash, Israel Koren, C. Mani Krishna:
Low Cost Dynamic Architecture Adaptation Schemes for Drowsy Cache Management. J. Low Power Electron. 9(4): 373-388 (2013) - [j67]Rance Rodrigues, Arunachalam Annamalai, Israel Koren, Sandip Kundu:
A Study on the Use of Performance Counters to Estimate Power in Microprocessors. IEEE Trans. Circuits Syst. II Express Briefs 60-II(12): 882-886 (2013) - [c119]Arunachalam Annamalai, Rance Rodrigues, Israel Koren, Sandip Kundu:
An opportunistic prediction-based thread scheduling to maximize throughput/watt in AMPs. PACT 2013: 63-72 - [c118]Glenn H. Chapman, Rohit Thomas, Israel Koren, Zahava Koren:
Improved image accuracy in Hot Pixel degraded digital cameras. DFTS 2013: 172-177 - [c117]Glenn H. Chapman, Rohit Thomas, Zahava Koren, Israel Koren:
Empirical formula for rates of hot pixel defects based on pixel size, sensor area, and ISO. Sensors, Cameras, and Systems for Industrial and Scientific Applications 2013: 86590C - [c116]Paolo Maistri, Sébastien Tiran, Philippe Maurine, Israel Koren, Régis Leveugle:
An evaluation of an AES implementation protected against EM analysis. ACM Great Lakes Symposium on VLSI 2013: 317-318 - [c115]Sudarshan Srinivasan, Rance Rodrigues, Arunachalam Annamalai, Israel Koren, Sandip Kundu:
On dynamic polymorphing of a superscalar core for improving energy efficiency. ICCD 2013: 495-498 - [c114]C. Mani Krishna, Israel Koren:
Adaptive fault-tolerance fault-tolerance for cyber-physical systems. ICNC 2013: 310-314 - [c113]Sudarshan Srinivasan, Rance Rodrigues, Arunachalam Annamalai, Israel Koren, Sandip Kundu:
A study on polymorphing superscalar processor dynamically to improve power efficiency. ISVLSI 2013: 46-51 - [c112]Paolo Maistri, Sébastien Tiran, Philippe Maurine, Israel Koren, Régis Leveugle:
Countermeasures against EM analysis for a secured FPGA-based AES implementation. ReConFig 2013: 1-6 - 2012
- [j66]Aswin Sreedhar, Sandip Kundu, Israel Koren:
On Reliability Trojan Injection and Detection. J. Low Power Electron. 8(5): 674-683 (2012) - [j65]Alessandro Barenghi
, Luca Breveglieri, Israel Koren, David Naccache:
Fault Injection Attacks on Cryptographic Devices: Theory, Practice, and Countermeasures. Proc. IEEE 100(11): 3056-3076 (2012) - [j64]Israel Koren, Daniel Mossé:
Special Issue: Selected papers from the 2011 IEEE International Green Computing Conference (IGCC 2011). Sustain. Comput. Informatics Syst. 2(2): 57 (2012) - [j63]Rance Rodrigues, Arunachalam Annamalai, Israel Koren, Sandip Kundu:
Improving performance per watt of asymmetric multi-core processors via online program phase classification and adaptive core morphing. ACM Trans. Design Autom. Electr. Syst. 18(1): 5:1-5:23 (2012) - [j62]Shmuel Wimer, Israel Koren:
The Optimal Fan-Out of Clock Network for Power Minimization by Adaptive Gating. IEEE Trans. Very Large Scale Integr. Syst. 20(10): 1772-1780 (2012) - [c111]Glenn H. Chapman, Rohit Thomas, Israel Koren, Zahava Koren:
Relating digital imager defect rates to pixel size, sensor area and ISO. DFT 2012: 164-169 - [c110]Rance Rodrigues, Israel Koren, Sandip Kundu:
A mechanism to verify cache coherence transactions in multicore systems. DFT 2012: 211-216 - [c109]Glenn H. Chapman, Jenny Leung, Rohit Thomas, Ana I. L. Namburete
, Zahava Koren, Israel Koren:
Projecting the rate of in-field pixel defects based on pixel size, sensor area, and ISO. Sensors, Cameras, and Systems for Industrial and Scientific Applications 2012: 82980E - [c108]Huaping Wang, Israel Koren, C. Mani Krishna:
Runtime architecture adaptation for energy management in embedded real-time systems. IGCC 2012: 1-9 - [c107]Abhinna Jain, C. M. Krishna, Israel Koren, Zahava Koren:
Cost Functions for Scheduling Tasks in Cyber-physical Systems. ICINCO (1) 2012: 412-421 - [c106]Ye Xu, Israel Koren, C. M. Krishna:
A Study of the Impact of Computational Delays in Missile Interception Systems. ICINCO (1) 2012: 585-588 - [c105]Glenn H. Chapman, Israel Koren, Zahava Koren:
Do more camera pixels result in a better picture? IOLTS 2012: 73-78 - [c104]Arunachalam Annamalai, Rance Rodrigues, Israel Koren, Sandip Kundu:
Dynamic Thread Scheduling in Asymmetric Multicores to Maximize Performance-per-Watt. IPDPS Workshops 2012: 964-971 - [c103]Rance Rodrigues, Arunachalam Annamalai, Israel Koren, Sandip Kundu:
Scalable Thread Scheduling in Asymmetric Multicores for Power Efficiency. SBAC-PAD 2012: 59-66 - [p1]Francesco Regazzoni
, Luca Breveglieri, Paolo Ienne, Israel Koren:
Interaction Between Fault Attack Countermeasures and the Resistance Against Power Analysis Attacks. Fault Analysis in Cryptography 2012: 257-272 - 2011
- [j61]Israel Koren, C. M. Krishna:
Temperature-aware computing. Sustain. Comput. Informatics Syst. 1(1): 46-56 (2011) - [j60]Huaping Wang, Israel Koren, C. Mani Krishna:
Utilization-Based Resource Partitioning for Power-Performance Efficiency in SMT Processors. IEEE Trans. Parallel Distributed Syst. 22(7): 1150-1163 (2011) - [c102]Rance Rodrigues, Arunachalam Annamalai, Israel Koren, Sandip Kundu, Omer Khan:
Performance Per Watt Benefits of Dynamic Core Morphing in Asymmetric Multicores. PACT 2011: 121-130 - [c101]Rance Rodrigues, Israel Koren, Sandip Kundu:
An Architecture to Enable Lifetime Full Chip Testability in Chip Multiprocessors. PACT 2011: 219 - [c100]Md. Muwyid U. Khan, Pritish Narayanan, Priyamvada Vijayakumar, Israel Koren, C. Mani Krishna, Csaba Andras Moritz:
Biased Voting for Improved Yield in Nanoscale Fabrics. DFT 2011: 79-85 - [c99]Rance Rodrigues, Israel Koren, Sandip Kundu:
An Architecture to Enable Life Cycle Testing in CMPs. DFT 2011: 341-348 - [c98]Glenn H. Chapman, Jenny Leung, Ana I. L. Namburete
, Israel Koren, Zahava Koren:
Predicting Pixel Defect Rates Based on Image Sensor Parameters. DFT 2011: 408-416 - [c97]Glenn H. Chapman, Jenny Leung, Rahul Thomas, Zahava Koren, Israel Koren:
Tradeoffs in imager design parameters for sensor reliability. Sensors, Cameras, and Systems for Industrial, Scientific, and Consumer Applications 2011: 78750I - [c96]Pritish Narayanan, Jorge Kina, Pavan Panchapakeshan, Priyamvada Vijayakumar, Kyeong-Sik Shin, Mostafizur Rahman, Michael Leuchtenburg, Israel Koren, Chi On Chui, Csaba Andras Moritz:
Nanoscale Application Specific Integrated Circuits. NANOARCH 2011: 99-106 - [c95]Priyamvada Vijayakumar, Pritish Narayanan, Israel Koren, C. Mani Krishna, Csaba Andras Moritz:
Impact of nanomanufacturing flow on systematic yield losses in nanoscale fabrics. NANOARCH 2011: 181-188 - [c94]Alessandro Barenghi
, Cédric Hocquet, David Bol, François-Xavier Standaert
, Francesco Regazzoni
, Israel Koren:
Exploring the Feasibility of Low Cost Fault Injection Attacks on Sub-threshold Devices through an Example of a 65nm AES Implementation. RFIDSec 2011: 48-60 - [e6]Luca Breveglieri, Sylvain Guilley, Israel Koren, David Naccache, Junko Takahashi:
2011 Workshop on Fault Diagnosis and Tolerance in Cryptography, FDTC 2011, Tokyo, Japan, September 29, 2011. IEEE Computer Society 2011, ISBN 978-1-4577-1463-4 [contents] - 2010
- [c93]Alessandro Barenghi
, Luca Breveglieri, Israel Koren, Gerardo Pelosi
, Francesco Regazzoni
:
Countermeasures against fault attacks on software implemented AES: effectiveness and cost. WESS 2010: 7 - [c92]Glenn H. Chapman, Jenny Leung, Israel Koren, Zahava Koren:
Tradeoffs in Imager Design with Respect to Pixel Defect Rates. DFT 2010: 231-239 - [c91]Priyamvada Vijayakumar, Pritish Narayanan, Israel Koren, C. Mani Krishna, Csaba Andras Moritz:
Incorporating Heterogeneous Redundancy in a Nanoprocessor for Improved Yield and Performance. DFT 2010: 273-279 - [c90]Anup Das
, Rance Rodrigues, Israel Koren, Sandip Kundu:
A study on performance benefits of core morphing in an asymmetric multicore processor. ICCD 2010: 17-22 - [c89]Prasad Shabadi, Alexander Khitun, Pritish Narayanan, Mingqiang Bao, Israel Koren, Kang L. Wang, Csaba Andras Moritz:
Towards logic functions as the device. NANOARCH 2010: 11-16 - [e5]Luca Breveglieri, Marc Joye, Israel Koren, David Naccache, Ingrid Verbauwhede:
2010 Workshop on Fault Diagnosis and Tolerance in Cryptography, FDTC 2010, Santa Barbara, California, USA, 21 August 2010. IEEE Computer Society 2010, ISBN 978-0-7695-4169-3 [contents]
2000 – 2009
- 2009
- [j59]Srikanth Sundaresan, Israel Koren, Zahava Koren, C. Mani Krishna:
Event-driven adaptive duty-cycling in sensor networks. Int. J. Sens. Networks 6(2): 89-100 (2009) - [c88]Jenny Leung, Glenn H. Chapman, Israel Koren, Zahava Koren:
Characterization of Gain Enhanced In-Field Defects in Digital Imagers. DFT 2009: 155-163 - [c87]Jenny Leung, Glenn H. Chapman, Zahava Koren, Israel Koren:
Statistical identification and analysis of defect development in digital imagers. Digital Photography 2009: 72500 - [e4]Luca Breveglieri, Israel Koren, David Naccache, Elisabeth Oswald, Jean-Pierre Seifert:
Sixth International Workshop on Fault Diagnosis and Tolerance in Cryptography, FDTC 2009, Lausanne, Switzerland, 6 September 2009. IEEE Computer Society 2009, ISBN 978-0-7695-3824-2 [contents] - 2008
- [c86]Huaping Wang, Israel Koren, C. Mani Krishna:
An adaptive resource partitioning algorithm for SMT processors. PACT 2008: 230-239 - [c85]Francesco Regazzoni
, Thomas Eisenbarth
, Luca Breveglieri, Paolo Ienne, Israel Koren:
Can Knowledge Regarding the Presence of Countermeasures Against Fault Attacks Simplify Power Attacks on Cryptographic Devices?. DFT 2008: 202-210 - [c84]Jenny Leung, Glenn H. Chapman, Israel Koren, Zahava Koren:
Automatic Detection of In-field eld Defect Growth in Image Sensors. DFT 2008: 305-313 - [e3]Luca Breveglieri, Shay Gueron, Israel Koren, David Naccache, Jean-Pierre Seifert:
Fifth International Workshop on Fault Diagnosis and Tolerance in Cryptography, 2008, FDTC 2008, Washington, DC, USA, 10 August 2008. IEEE Computer Society 2008, ISBN 978-0-7695-3314-8 [contents] - 2007
- [j58]Yongkui Han, Israel Koren, C. Mani Krishna:
TILTS: A Fast Architectural-Level Transient Thermal Simulation Method. J. Low Power Electron. 3(1): 13-21 (2007) - [j57]Yongkui Han, Israel Koren:
Simulated Annealing Based Temperature Aware Floorplanning. J. Low Power Electron. 3(2): 141-155 (2007) - [j56]Luca Breveglieri, Israel Koren, Paolo Maistri:
An Operation-Centered Approach to Fault Detection in Symmetric Cryptography Ciphers. IEEE Trans. Computers 56(5): 635-649 (2007) - [j55]Yizheng Zhou, Vijay Lakamraju, Israel Koren, C. M. Krishna:
Software-Based Failure Detection and Recovery in Programmable Network Interfaces. IEEE Trans. Parallel Distributed Syst. 18(11): 1539-1550 (2007) - [c83]Francesco Regazzoni
, Thomas Eisenbarth
, Johann Großschädl, Luca Breveglieri, Paolo Ienne, Israel Koren, Christof Paar:
Power Attacks Resistance of Cryptographic S-Boxes with Added Error Detection Circuits. DFT 2007: 508-516 - [c82]Jenny Leung, Jozsef Dudas, Glenn H. Chapman, Israel Koren, Zahava Koren:
Quantitative Analysis of In-Field Defects in Image Sensor Arrays. DFT 2007: 526-534 - [c81]Jozsef Dudas, Linda Wu, Cory Jung, Glenn H. Chapman, Zahava Koren, Israel Koren:
Identification of in-field defect development in digital image sensors. Digital Photography 2007: 65020Y - [c80]