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ORCIDMichael J. Schulte
Mike Schulte 0001
Person information
- affiliation: AMD, Sunnyvale, CA, USA
- affiliation (former): University of Wisconsin-Madison, WI, USA
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2020 – today
- 2024
[c97]Alan Smith, Gabriel H. Loh, Michael J. Schulte, Mike Ignatowski, Samuel Naffziger, Mike Mantor, Nathan Kalyanasundharam, Vamsi Alla, Nicholas Malaya, Joseph L. Greathouse, Eric Chapman, Raja Swaminathan:
Realizing the AMD Exascale Heterogeneous Processor Vision : Industry Product. ISCA 2024: 876-889- 2023
- [c96]Gabriel H. Loh
, Michael J. Schulte, Mike Ignatowski, Vignesh Adhinarayanan, Shaizeen Aga, Derrick Aguren, Varun Agrawal, Ashwin M. Aji, Johnathan Alsop, Paul T. Bauman, Bradford M. Beckmann, Majed Valad Beigi, Sergey Blagodurov, Travis Boraten, Michael Boyer, William C. Brantley, Noel Chalmers, Shaoming Chen, Kevin Cheng, Michael L. Chu, David Cownie, Nicholas Curtis, Joris Del Pino, Nam Duong, Alexandru Dutu, Yasuko Eckert, Christopher Erb, Chip Freitag, Joseph L. Greathouse, Sudhanva Gurumurthi, Anthony Gutierrez, Khaled Hamidouche, Sachin Hossamani, Wei Huang, Mahzabeen Islam, Nuwan Jayasena, John Kalamatianos, Onur Kayiran, Jagadish Kotra, Alan Lee, Daniel Lowell, Niti Madan, Abhinandan Majumdar, Nicholas Malaya, Srilatha Manne, Susumu Mashimo, Damon McDougall, Elliot Mednick, Michael Mishkin, Mark Nutter, Indrani Paul, Matthew Poremba, Brandon Potter, Kishore Punniyamurthy, Sooraj Puthoor, Steven E. Raasch, Karthik Rao, Gregory Rodgers, Marko Scrbak, Mohammad Seyedzadeh, John Slice, Vilas Sridharan, René van Oostrum, Eric Van Tassell, Abhinav Vishnu, Samuel Wasmundt, Mark Wilkening, Noah Wolfe, Mark Wyse, Adithya Yalavarti, Dmitri Yudanov:
A Research Retrospective on AMD's Exascale Computing Journey. ISCA 2023: 81:1-81:14 - [c95]Raja Swaminathan, Michael J. Schulte, Brett Wilkerson, Gabriel H. Loh, Alan Smith, Norman James:
AMD InstinctTM MI250X Accelerator enabled by Elevated Fanout Bridge Advanced Packaging Architecture. VLSI Technology and Circuits 2023: 1-2 - [i1]Shuaiwen Leon Song, Bonnie Kruft, Minjia Zhang, Conglong Li, Shiyang Chen, Chengming Zhang, Masahiro Tanaka, Xiaoxia Wu, Jeff Rasley, Ammar Ahmad Awan, Connor Holmes, Martin Cai, Adam Ghanem, Zhongzhu Zhou, Yuxiong He, Pete Luferenko, Divya Kumar, Jonathan A. Weyn, Ruixiong Zhang, Sylwester Klocek, Volodymyr Vragov, Mohammed AlQuraishi, Gustaf Ahdritz, Christina Floristean, Cristina Negri, Rao Kotamarthi, Venkatram Vishwanath, Arvind Ramanathan, Sam Foreman, Kyle Hippe, Troy Arcomano, Romit Maulik, Maxim Zvyagin, Alexander Brace, Bin Zhang, Cindy Orozco Bohorquez, Austin Clyde, Bharat Kale, Danilo Perez-Rivera, Heng Ma, Carla M. Mann, Michael W. Irvin, J. Gregory Pauloski, Logan T. Ward, Valérie Hayot-Sasson, Murali Emani, Zhen Xie, Diangen Lin, Maulik Shukla, Ian T. Foster, James J. Davis, Michael E. Papka, Thomas S. Brettin, Prasanna Balaprakash, Gina Tourassi, John Gounley, Heidi A. Hanson, Thomas E. Potok, Massimiliano Lupo Pasini, Kate Evans, Dan Lu, Dalton D. Lunga, Junqi Yin, Sajal Dash, Feiyi Wang, Mallikarjun Shankar, Isaac Lyngaas, Xiao Wang, Guojing Cong, Pei Zhang, Ming Fan, Siyan Liu, Adolfy Hoisie, Shinjae Yoo, Yihui Ren, William Tang, Kyle Felker, Alexey Svyatkovskiy, Hang Liu, Ashwin M. Aji, Angela Dalton, Michael J. Schulte, Karl Schulz, Yuntian Deng, Weili Nie, Josh Romero, Christian Dallago, Arash Vahdat, Chaowei Xiao, Thomas Gibbs, Anima Anandkumar, Rick Stevens:
DeepSpeed4Science Initiative: Enabling Large-Scale Scientific Discovery through Sophisticated AI System Technologies. CoRR abs/2310.04610 (2023) - 2021
- [j44]Dave Christie, Mike Clark, Mike Schulte:
What Made Us Stronger: An Inside Look Back at the History of AMD Microprocessor Development. IEEE Micro 41(6): 29-36 (2021) - 2020
- [j43]Weiqiang Liu, Fabrizio Lombardi, Michael J. Schulte:
Approximate Computing: From Circuits to Applications [Scanning the Issue]. Proc. IEEE 108(12): 2103-2107 (2020)
2010 – 2019
- 2019
- [e3]Cristina Silvano, Koen Bertels, Michael J. Schulte:
Transactions on High-Performance Embedded Architectures and Compilers V. Lecture Notes in Computer Science 11225, Springer 2019, ISBN 978-3-662-58833-8 [contents] - 2017
- [c94]Nicholas Malaya, Shuai Che, Joseph L. Greathouse, René van Oostrum, Michael J. Schulte:
Accelerating Matrix Processing with GPUs. ARITH 2017: 139-141 - [c93]Thiruvengadam Vijayaraghavan, Yasuko Eckert, Gabriel H. Loh, Michael J. Schulte, Mike Ignatowski, Bradford M. Beckmann, William C. Brantley, Joseph L. Greathouse, Wei Huang, Arun Karunanithi, Onur Kayiran, Mitesh R. Meswani, Indrani Paul, Matthew Poremba, Steven Raasch, Steven K. Reinhardt, Greg Sadowski, Vilas Sridharan:
Design and Analysis of an APU for Exascale Computing. HPCA 2017: 85-96 - 2016
- [e2]Paolo Montuschi, Michael J. Schulte, Javier Hormigo, Stuart F. Oberman, Nathalie Revol:
23nd IEEE Symposium on Computer Arithmetic, ARITH 2016, Silicon Valley, CA, USA, July 10-13, 2016. IEEE Computer Society 2016, ISBN 978-1-5090-1616-7 [contents] - 2015
- [j42]Michael J. Schulte, Mike Ignatowski, Gabriel H. Loh, Bradford M. Beckmann, William C. Brantley, Sudhanva Gurumurthi, Nuwan Jayasena, Indrani Paul, Steven K. Reinhardt, Gregory Rodgers:
Achieving Exascale Capabilities through Heterogeneous Computing. IEEE Micro 35(4): 26-36 (2015) - 2014
- [j41]Syed Zohaib Gilani, Nam Sung Kim, Michael J. Schulte:
Energy-Efficient Pixel-Arithmetic. IEEE Trans. Computers 63(8): 1882-1894 (2014) - [j40]Abhishek A. Sinkar, Hamid Reza Ghasemi, Michael J. Schulte, Ulya R. Karpuzcu, Nam Sung Kim:
Low-Cost Per-Core Voltage Domain Support for Power-Constrained High-Performance Processors. IEEE Trans. Very Large Scale Integr. Syst. 22(4): 747-758 (2014) - [c92]Hao Wang, Ripudaman Singh, Michael J. Schulte, Nam Sung Kim:
Memory scheduling towards high-throughput cooperative heterogeneous computing. PACT 2014: 331-342 - [c91]Paula Aguilera, Jungseob Lee, Amin Farmahini Farahani, Katherine Morrow, Michael J. Schulte, Nam Sung Kim:
Process variation-aware workload partitioning algorithms for GPUs supporting spatial-multitasking. DATE 2014: 1-6 - 2013
- [j39]Youngtaek Kim, Lizy Kurian John, Sanjay Pant, Srilatha Manne, Michael J. Schulte, William Lloyd Bircher, Madhu Saravana Sibi Govindan:
Automating Stressmark Generation for Testing Processor Voltage Fluctuations. IEEE Micro 33(4): 66-75 (2013) - [j38]Amin Farmahini Farahani, Henry J. Duwe III, Michael J. Schulte, Katherine Compton:
Modular Design of High-Throughput, Low-Latency Sorting Units. IEEE Trans. Computers 62(7): 1389-1402 (2013) - [j37]Sonia González-Navarro, Charles Tsen, Michael J. Schulte:
Binary Integer Decimal-Based Floating-Point Multiplication. IEEE Trans. Computers 62(7): 1460-1466 (2013) - [j36]Murugappan Senthilvelan, Mihai Sima, Daniel Iancu, Michael J. Schulte, John Glossner:
Instruction Set Extensions for Matrix Decompositions on Software Defined Radio Architectures. J. Signal Process. Syst. 70(3): 289-303 (2013) - [c90]Daniel W. Chang, Gyungsu Byun, Hoyoung Kim, Minwook Ahn, Soojung Ryu, Nam Sung Kim, Michael J. Schulte:
Reevaluating the latency claims of 3D stacked memories. ASP-DAC 2013: 657-662 - [c89]Syed Zohaib Gilani, Nam Sung Kim, Michael J. Schulte:
Power-efficient computing for compute-intensive GPGPU applications. HPCA 2013: 330-341 - [c88]Youngtaek Kim, Lizy Kurian John, Indrani Paul, Srilatha Manne, Michael J. Schulte:
Performance boosting under reliability and power constraints. ICCAD 2013: 334-341 - [c87]Daniel W. Chang, Young Hoon Son, Jung Ho Ahn, Hoyoung Kim, Minwook Ahn, Michael J. Schulte, Nam Sung Kim:
Dynamic bandwidth scaling for embedded DSPs with 3D-stacked DRAM and wide I/Os. ICCAD 2013: 747-754 - [c86]Vignyan Reddy, Syed Zohaib Gilani, Erika Gunadi, Nam Sung Kim, Michael J. Schulte, Mikko H. Lipasti:
REEL: Reducing effective execution latency of floating point operations. ISLPED 2013: 187-192 - [c85]Syed Zohaib Gilani, Nam Sung Kim, Michael J. Schulte:
Exploiting GPU peak-power and performance tradeoffs through reduced effective pipeline latency. MICRO 2013: 74-85 - [p2]Anthony E. Gregerson, Michael J. Schulte, Katherine Compton:
High-Energy Physics. Handbook of Signal Processing Systems 2013: 135-169 - 2012
- [j35]Sonia González-Navarro, Javier Hormigo, Michael J. Schulte:
A study of decimal left shifters for binary numbers. Inf. Comput. 216: 47-56 (2012) - [c84]Vijay Sathish, Michael J. Schulte, Nam Sung Kim:
Lossless and lossy memory I/O link compression for improving performance of GPGPU workloads. PACT 2012: 325-334 - [c83]Hao Wang, Vijay Sathish, Ripudaman Singh, Michael J. Schulte, Nam Sung Kim:
Workload and power budget partitioning for single-chip heterogeneous processors. PACT 2012: 401-410 - [c82]Syed Zohaib Gilani, Nam Sung Kim, Michael J. Schulte:
Power-efficient computing for compute-intensive GPGPU applications. PACT 2012: 445-446 - [c81]Michael J. Schulte:
Session MP6a: Computer arithmetic (invited). ACSCC 2012: 342-344 - [c80]Syed Zohaib Gilani, Nam Sung Kim, Michael J. Schulte:
Virtual Floating-Point Units for Low-Power Embedded Processors. ASAP 2012: 61-68 - [c79]Ardavan Pedram, Syed Zohaib Gilani, Nam Sung Kim, Robert A. van de Geijn, Michael J. Schulte, Andreas Gerstlauer:
A Linear Algebra Core Design for Efficient Level-3 BLAS. ASAP 2012: 149-152 - [c78]Hamid Reza Ghasemi, Abhishek A. Sinkar, Michael J. Schulte, Nam Sung Kim:
Cost-effective power delivery to support per-core voltage domains for power-constrained processors. DAC 2012: 56-61 - [c77]Jacob Adriaens, Katherine Compton, Nam Sung Kim, Michael J. Schulte:
The case for GPGPU spatial multitasking. HPCA 2012: 79-90 - [c76]Yasuko Eckert, Srilatha Manne, Michael J. Schulte, David A. Wood:
Something old and something new: P-states can borrow microarchitecture techniques too. ISLPED 2012: 385-390 - [c75]Youngtaek Kim, Lizy Kurian John, Sanjay Pant, Srilatha Manne, Michael J. Schulte, William Lloyd Bircher, Madhu Saravana Sibi Govindan:
AUDIT: Stress Testing the Automatic Way. MICRO 2012: 212-223 - 2011
- [j34]Samuel Tsen, Sonia González-Navarro, Michael J. Schulte, Katherine Compton:
Hardware Designs for Binary Integer Decimal-Based Rounding. IEEE Trans. Computers 60(5): 614-627 (2011) - [c74]Jungseob Lee, Vijay Sathish, Michael J. Schulte, Katherine Compton, Nam Sung Kim:
Improving Throughput of Power-Constrained GPUs Using Dynamic Voltage/Frequency and Core Scaling. PACT 2011: 111-120 - [c73]E. George Walters III, Michael J. Schulte:
Truncated-matrix multipliers with coefficient shifting. ACSCC 2011: 176-180 - [c72]Michael J. Schulte:
Session MP8a4: DSP algorithms and architectures. ACSCC 2011: 503-504 - [c71]Michael J. Schulte:
Session MP7b: Model-based design optimization. ACSCC 2011: 749-750 - [c70]Syed Zohaib Gilani, Nam Sung Kim, Michael J. Schulte:
Energy-efficient floating-point arithmetic for digital signal processors. ACSCC 2011: 1823-1827 - [c69]Ahmet Akkas, Michael J. Schulte:
A decimal floating-point fused multiply-add unit with a novel decimal leading-zero anticipator. ASAP 2011: 43-50 - [c68]Syed Zohaib Gilani, Nam Sung Kim, Michael J. Schulte:
Energy-efficient floating-point arithmetic for software-defined radio architectures. ASAP 2011: 122-129 - [c67]Syed Zohaib Gilani, Nam Sung Kim, Michael J. Schulte:
Scratchpad memory optimizations for digital signal processing applications. DATE 2011: 974-979 - [c66]Daniel W. Chang, Nam Sung Kim, Michael J. Schulte:
Analyzing the performance and energy impact of 3D memory integration on embedded DSPs. ICSAMOS 2011: 303-310 - [c65]Amin Farmahini Farahani, Anthony E. Gregerson, Michael J. Schulte, Katherine Compton:
Modular high-throughput and low-latency sorting units for FPGAs in the Large Hadron Collider. SASP 2011: 38-45 - 2010
- [j33]Liang-Kai Wang, Mark A. Erle, Charles Tsen, Eric M. Schwarz, Michael J. Schulte:
A survey of hardware designs for decimal arithmetic. IBM J. Res. Dev. 54(2): 8 (2010) - [j32]Christipher D. Jenkins, Michael J. Schulte, John Glossner:
Instruction set extensions for the advanced encryption standard on a multithreaded software defined radio platform. Int. J. High Perform. Syst. Archit. 2(3/4): 203-214 (2010) - [c64]Aishwarya Nagarajan, Michael J. Schulte, Parameswaran Ramanathan:
Galois field hardware architectures for network coding. ANCS 2010: 35 - [c63]Daniel W. Chang, Christipher D. Jenkins, Philip C. Garcia, Syed Zohaib Gilani, Paula Aguilera, Aishwarya Nagarajan, Michael J. Anderson, Matthew A. Kenny, Sean M. Bauer, Michael J. Schulte, Katherine Compton:
ERCBench: An Open-Source Benchmark Suite for Embedded and Reconfigurable Computing. FPL 2010: 408-413 - [c62]Murugappan Senthilvelan, Javier Hormigo, Joon Hwa Chun, Mihai Sima, Daniel Iancu, Michael J. Schulte, John Glossner:
CORDIC-based LMMSE equalizer for Software Defined Radio. ICSAMOS 2010: 301-308 - [c61]Sao-Jie Chen, Pao-Ann Hsiung, Chu Yu, Mao-Hsu Yen, Sakir Sezer, Michael J. Schulte, Yu Hen Hu:
ARAL-CR: An adaptive reasoning and learning cognitive radio platform. ICSAMOS 2010: 324-331 - [p1]Anthony E. Gregerson, Michael J. Schulte, Katherine Compton:
High-Energy Physics. Handbook of Signal Processing Systems 2010: 179-211
2000 – 2009
- 2009
- [j31]JoAnn M. Paul, Mwaffaq Otoom, Marc Somers, Sean M. Pieper, Michael J. Schulte:
The Emerging Landscape of Computer Performance Evaluation. Adv. Comput. 75: 235-280 (2009) - [j30]Suman Mamidi, Emily R. Blem, Michael J. Schulte, John Glossner, Daniel Iancu, Andrei Iancu, Mayan Moudgill, Sanjay Jinturkar:
Instruction set extensions for software defined radio. Microprocess. Microsystems 33(4): 260-272 (2009) - [j29]Dimitri Tan, Carl Lemonds, Michael J. Schulte:
Low-Power Multiple-Precision Iterative Floating-Point Multiplier with SIMD Support. IEEE Trans. Computers 58(2): 175-187 (2009) - [j28]Liang-Kai Wang, Michael J. Schulte, John D. Thompson, Nandini Jairam:
Hardware Designs for Decimal Floating-Point Addition and Related Operations. IEEE Trans. Computers 58(3): 322-335 (2009) - [j27]Mark A. Erle, Brian J. Hickmann, Michael J. Schulte:
Decimal Floating-Point Multiplication. IEEE Trans. Computers 58(7): 902-916 (2009) - [c60]Liang-Kai Wang, Michael J. Schulte:
A Decimal Floating-Point Adder with Decoded Operands and a Decimal Leading-Zero Anticipator. IEEE Symposium on Computer Arithmetic 2009: 125-134 - [c59]Charles Tsen, Sonia González-Navarro, Michael J. Schulte, Brian J. Hickmann, Katherine Compton:
A Combined Decimal and Binary Floating-Point Multiplier. ASAP 2009: 8-15 - [c58]Anthony E. Gregerson, Amin Farmahini Farahani, Ben Buchli, Steve Naumov, Michail Bachtis, Katherine Compton, Michael J. Schulte, Wesley H. Smith, Sridhara Dasu:
FPGA Design Analysis of the Clustering Algorithm for the CERN Large Hadron Collider. FCCM 2009: 19-26 - [c57]Michael J. Anderson, Chuck Tsen, Liang-Kai Wang, Katherine Compton, Michael J. Schulte:
Performance analysis of decimal floating-point libraries and its impact on decimal hardware and software solutions. ICCD 2009: 465-471 - [e1]Walid A. Najjar, Michael J. Schulte:
Proceedings of the 2009 International Conference on Embedded Computer Systems: Architectures, Modeling and Simulation (IC-SAMOS 2009), Samos, Greece, July 20-23, 2009. IEEE 2009, ISBN 978-1-4244-4501-1 [contents] - 2008
- [c56]John Glossner, Daniel Iancu, Mayan Moudgill, Sanjay Jinturkar, Gary Nacer, Stuart Stanley, Andrei Iancu, Hua Ye, Michael J. Schulte, Mihai Sima, Tomas Palenik, Peter Farkas, Jarmo Takala:
Implementing communications systems on an SDR SoC. ICASSP 2008: 5380-5383 - [c55]Brian J. Hickmann, Michael J. Schulte, Mark A. Erle:
Improved combined binary/decimal fixed-point multipliers. ICCD 2008: 87-94 - 2007
- [j26]Sean M. Pieper, JoAnn M. Paul, Michael J. Schulte:
A New Era of Performance Evaluation. Computer 40(9): 23-30 (2007) - [j25]John Glossner, Daniel Iancu, Mayan Moudgill, Gary Nacer, Sanjay Jinturkar, Stuart Stanley, Michael J. Schulte:
The Sandbridge SB3011 Platform. EURASIP J. Embed. Syst. 2007 (2007) - [j24]Liang-Kai Wang, Michael J. Schulte:
A Decimal Floating-Point Divider Using Newton-Raphson Iteration. J. VLSI Signal Process. 49(1): 3-18 (2007) - [c54]Mark A. Erle, Michael J. Schulte, Brian J. Hickmann:
Decimal Floating-Point Multiplication Via Carry-Save Addition. IEEE Symposium on Computer Arithmetic 2007: 46-55 - [c53]Liang-Kai Wang, Michael J. Schulte:
Decimal Floating-Point Adder and Multifunction Unit with Injection-Based Rounding. IEEE Symposium on Computer Arithmetic 2007: 56-68 - [c52]Charles Tsen, Michael J. Schulte, Sonia González-Navarro:
Hardware Design of a Binary Integer Decimal-based IEEE P754 Rounding Unit. ASAP 2007: 115-121 - [c51]Suman Mamidi, Michael J. Schulte, Daniel Iancu, C. John Glossner:
Architecture Support for Reconfigurable Multithreaded Processors in Programmable Communication Systems. ASAP 2007: 320-327 - [c50]Liang-Kai Wang, Charles Tsen, Michael J. Schulte, Divya Jhalani:
Benchmarks and performance analysis of decimal floating-point applications. ICCD 2007: 164-170 - [c49]Charles Tsen, Sonia González-Navarro, Michael J. Schulte:
Hardware design of a Binary Integer Decimal-based floating-point adder. ICCD 2007: 288-295 - [c48]Brian J. Hickmann, Andrew Krioukov, Michael J. Schulte, Mark A. Erle:
A parallel IEEE P754 decimal floating-point multiplier. ICCD 2007: 296-303 - [c47]Michael J. Schulte, Dimitri Tan, Carl Lemonds:
Floating-point division algorithms for an x86 microprocessor with a rectangular multiplier. ICCD 2007: 304-310 - [c46]John Glossner, Daniel Iancu, Mayan Moudgill, Michael J. Schulte, Stamatis Vassiliadis:
Trends in Low Power Handset Software Defined Radio. SAMOS 2007: 313-321 - [c45]Mihai Sima, Murugappan Senthilvelan, Daniel Iancu, C. John Glossner, Mayan Moudgill, Michael J. Schulte:
Software Solutions for Converting a MIMO-OFDM Channel into Multiple SISO-OFDM Channels. WiMob 2007: 9 - 2006
- [j23]Philip Garcia, Katherine Compton, Michael J. Schulte, Emily R. Blem, Wenyin Fu:
An Overview of Reconfigurable Hardware in Embedded Systems. EURASIP J. Embed. Syst. 2006 (2006) - [j22]Ahmet Akkas, Michael J. Schulte:
Dual-mode floating-point multiplier architectures with parallel operations. J. Syst. Archit. 52(10): 549-562 (2006) - [j21]Mustafa Gök, Michael J. Schulte, Mark G. Arnold:
Integer Multipliers with Overflow Detection. IEEE Trans. Computers 55(8): 1062-1066 (2006) - [j20]Jing Liu, Michael J. Redmond, Ethan K. Brodsky, Andrew L. Alexander, Aiming Lu, F. J. Thornton, Michael J. Schulte, Tom M. Grist, James G. Pipe, Walter F. Block:
Generation and visualization of four-dimensional MR angiography data using an undersampled 3-D projection trajectory. IEEE Trans. Medical Imaging 25(2): 148-157 (2006) - [j19]Kent E. Wires, Michael J. Schulte:
Reciprocal and Reciprocal Square Root Units with Operand Modification and Multiplication. J. VLSI Signal Process. 42(3): 257-272 (2006) - [j18]Michael J. Schulte, John Glossner, Sanjay Jinturkar, Mayan Moudgill, Suman Mamidi, Stamatis Vassiliadis:
A Low-Power Multithreaded Processor for Software Defined Radio. J. VLSI Signal Process. 43(2-3): 143-159 (2006) - 2005
- [j17]Robert D. Kenney, Michael J. Schulte:
High-Speed Multioperand Decimal Adders. IEEE Trans. Computers 54(8): 953-963 (2005) - [j16]Michael J. Schulte, Shuvra S. Bhattacharyya, Robert Schreiber:
Guest Editorial. J. VLSI Signal Process. 40(1): 5-6 (2005) - [c44]Mark A. Erle, Eric M. Schwarz, Michael J. Schulte:
Decimal Multiplication with Efficient Partial Product Generation. IEEE Symposium on Computer Arithmetic 2005: 21-28 - [c43]E. George Walters III, Michael J. Schulte:
Efficient Function Approximation Using Truncated Multipliers and Squarers. IEEE Symposium on Computer Arithmetic 2005: 232-239 - [c42]Liang-Kai Wang, Michael J. Schulte:
Decimal Floating-Point Square Root Using Newton-Raphson Iteration. ASAP 2005: 309-315 - [c41]Suman Mamidi, Daniel Iancu, Andrei Iancu, Michael J. Schulte, John Glossner:
Instruction Set Extensions for Reed-Solomon Encoding and Decoding. ASAP 2005: 364-369 - [c40]Suman Mamidi, Emily R. Blem, Michael J. Schulte, C. John Glossner, Daniel Iancu, Andrei Iancu, Mayan Moudgill, Sanjay Jinturkar:
Instruction set extensions for software defined radio on a multithreaded processor. CASES 2005: 266-273 - [c39]C. John Glossner, Mayan Moudgill, Daniel Iancu, Gary Nacer, Sanjay Jinturkar, Stuart Stanley, Michael Samori, Tanuj Raja, Michael J. Schulte, Stamatis Vassiliadis:
Future wireless convergence platforms. CODES+ISSS 2005: 7-12 - [c38]James E. Stine, Michael J. Schulte:
A combined two's complement and floating-point comparator. ISCAS (1) 2005: 89-92 - [c37]C. John Glossner, Sean Dorward, Sanjay Jinturkar, Mayan Moudgill, Erdem Hokenek, Michael J. Schulte, Stamatis Vassiliadis:
Sandbridge Software Tools. SAMOS 2005: 269-278 - 2004
- [j15]Ahmet Akkas, Michael J. Schulte, James E. Stine:
Intrinsic Compiler Support for Interval Arithmetic. Numer. Algorithms 37(1-4): 13-20 (2004) - [c36]Liang-Kai Wang, Michael J. Schulte:
Decimal Floating-Point Division Using Newton-Raphson Iteration. ASAP 2004: 84-95 - [c35]Michael J. Schulte, Kai Chirca, John Glossner, Haoran Wang, Suman Mamidi, Pablo I. Balzola, Stamatis Vassiliadis:
A Low-Power Carry Skip Adder with Fast Saturation. ASAP 2004: 269-279 - [c34]John Glossner, Kai Chirca, Michael J. Schulte, Haoran Wang, Nasir Nasimzada, David Har, Shenghong Wang, A. Joseph Hoane, Gary Nacer, Mayan Moudgill, Stamatis Vassiliadis:
Sandblaster low power DSP [parallel DSP arithmetic microarchitecture]. CICC 2004: 575-581 - [c33]Kai Chirca, Michael J. Schulte, John Glossner, Haoran Wang, Suman Mamidi, Pablo I. Balzola, Stamatis Vassiliadis:
A Static Low-Power, High-Performance 32-bit Carry Skip Adder. DSD 2004: 615-619 - [c32]Robert D. Kenney, Michael J. Schulte, Mark A. Erle:
A High-Frequency Decimal Multiplier. ICCD 2004: 26-29 - [c31]Robert D. Kenney, Michael J. Schulte:
Multioperand Decimal Addition. ISVLSI 2004: 251-253 - [c30]Shankar Krithivasan, Michael J. Schulte, John Glossner:
A Subword-Parallel Multiplication and Sum-of-Squares Unit. ISVLSI 2004: 273-274 - [c29]John D. Thompson, Nandini Karra, Michael J. Schulte:
A 64-bit Decimal Floating-Point Adder. ISVLSI 2004: 297-298 - [c28]Michael J. Redmond, Ethan K. Brodsky, Yu Hen Hu, Tom M. Grist, Michael J. Schulte, Walter F. Block:
The 4D Cluster Visualization project. Image-Guided Procedures 2004 - [c27]Michael J. Schulte, C. John Glossner, Suman Mamidi, Mayan Moudgill, Stamatis Vassiliadis:
A Low-Power Multithreaded Processor for Baseband Communication Systems. SAMOS 2004: 393-402 - 2003
- [c26]Mark G. Arnold, Jesus Garcia, Michael J. Schulte:
The Interval Logarithmic Number System. IEEE Symposium on Computer Arithmetic 2003: 253-261 - [c25]Michael J. Schulte, Louis Marquette, Shankar Krithivasan, E. George Walters III, John Glossner:
Combined Multiplication and Sum-of-Squares Units. ASAP 2003: 204-214 - [c24]Mark A. Erle, Michael J. Schulte:
Decimal Multiplication Via Carry-Save Addition. ASAP 2003: 348- - [c23]Ahmet Akkas, Michael J. Schulte:
A Quadruple Precision and Dual Double Precision Floating-Point Multiplier. DSD 2003: 76-81 - 2002
- [j14]Michael J. Schulte, Graham A. Jullien:
Guest Editorial. J. VLSI Signal Process. 31(2): 75-76 (2002) - [c22]C. John Glossner, Michael J. Schulte, Stamatis Vassiliadis:
A Java-Enabled DSP. Embedded Processor Design Challenges 2002: 307-326 - 2001
- [c21]K'Andrea C. Bickerstaff, Earl E. Swartzlander Jr., Michael J. Schulte:
Analysis of Column Compression Multipliers. IEEE Symposium on Computer Arithmetic 2001: 33-39 - [c20]Kent E. Wires, Michael J. Schulte, Don McCarley:
FPGA Resource Reduction Through Truncated Multiplication. FPL 2001: 574-583 - [c19]Pablo I. Balzola, Michael J. Schulte, Jie Ruan, C. John Glossner, Erdem Hokenek:
Design Alternatives for Parallel Saturating Multioperand Adders. ICCD 2001: 172-177 - [c18]Kent E. Wires, Michael J. Schulte, James E. Stine:
Combined IEEE Compliant and Truncated Floating Point Multipliers for Reduced Power Dissipation. ICCD 2001: 497-500 - 2000
- [j13]Michael J. Schulte, Earl E. Swartzlander Jr.:
A Family of Variable-Precision Interval Arithmetic Processors. IEEE Trans. Computers 49(5): 387-397 (2000) - [j12]Michael J. Schulte, Pablo I. Balzola, Ahmet Akkas, Robert W. Brocato:
Integer Multiplication with Overflow Detection or Saturation. IEEE Trans. Computers 49(7): 681-691 (2000) - [c17]Javier Hormigo, Julio Villalba, Michael J. Schulte:
A Hardware Algorithm for Variable-Precision Logarithm. ASAP 2000: 215-224 - [c16]Michael J. Schulte, Pablo I. Balzola, Jie Ruan, C. John Glossner:
Parallel saturating multioperand adders. CASES 2000: 172-179 - [c15]Dean Batten, Sanjay Jinturkar, C. John Glossner, Michael J. Schulte, Paul D'Arcy:
A New Approach to DSP Intrinsic Functions. HICSS 2000
1990 – 1999
- 1999
- [j11]Michael J. Schulte, Vitaly Zelov, Ahmet Akkas, James Craig Burley:
The Interval-Enhanced GNU Fortran Compiler. Reliab. Comput. 5(3): 311-322 (1999) - [j10]Michael J. Schulte, James E. Stine:
Approximating Elementary Functions with Symmetric Bipartite Tables. IEEE Trans. Computers 48(8): 842-847 (1999) - [j9]James E. Stine, Michael J. Schulte:
The Symmetric Table Addition Method for Accurate Function Approximation. J. VLSI Signal Process. 21(2): 167-177 (1999) - [c14]Michael J. Schulte, Kent E. Wires:
High-Speed Inverse Square Roots. IEEE Symposium on Computer Arithmetic 1999: 124- - [c13]Navindra Yadav, Michael J. Schulte, John Glossner:
Parallel Saturating Fractional Arithmetic Units. Great Lakes Symposium on VLSI 1999: 214-217 - 1998
- [c12]James E. Stine, Michael J. Schulte:
A Combined Interval and Floating Point Multiplier. Great Lakes Symposium on VLSI 1998: 208- - [c11]Michael J. Schulte, Vitaly Zelov, G. William Walster, Dmitri Chiriaev:
Single-Number Interval I/O. SCAN 1998: 141-148 - [c10]Michael J. Schulte, Vitaly Zelov, Ahmet Akkas, James Craig Burley:
The Interval-Enhanced GNU Fortran Compiler. SCAN 1998: 311-322 - 1997
- [c9]Michael J. Schulte, James E. Stine:
Symmetric Bipartite Tables for Accurate Function Approximation. IEEE Symposium on Computer Arithmetic 1997: 175-183 - [c8]Michael J. Schulte, James E. Stine:
Accurate Function Approximations by Symmetric Table Lookup and Addition. ASAP 1997: 144-153 - 1996
- [j8]Michael J. Schulte, Earl E. Swartzlander Jr.:
Variable-precision, interval arithmetic coprocessors. Reliab. Comput. 2(1): 47-62 (1996) - [j7]Thomas W. Lynch, Michael J. Schulte:
Software for high radix on-line arithmetic. Reliab. Comput. 2(2): 133-138 (1996) - [j6]Michael J. Schulte:
Hardware interval multipliers. RITA 3(2): 73-90 (1996) - 1995
- [j5]Thomas W. Lynch, Michael J. Schulte:
A High Radix On-Line Arithmetic for Credible and Accurate Computing. J. Univers. Comput. Sci. 1(7): 439-453 (1995) - [j4]Michael J. Schulte, Earl E. Swartzlander Jr.:
A software interface and hardware design for variable-precision interval arithmetic. Reliab. Comput. 1(3): 325-342 (1995) - [j3]K'Andrea C. Bickerstaff, Michael J. Schulte, Earl E. Swartzlander Jr.:
Parallel reduced area multipliers. J. VLSI Signal Process. 9(3): 181-191 (1995) - [c7]Thomas W. Lynch, Ashraf Ahmed, Michael J. Schulte, Thomas K. Callaway, Robert Tisdale:
The K5 transcendental functions. IEEE Symposium on Computer Arithmetic 1995: 163- - [c6]Michael J. Schulte, Earl E. Swartzlander Jr.:
Hardware Design and Arithmetic Algorithms for a Variable-Precision, Interval Arithmetic Coprocessor. IEEE Symposium on Computer Arithmetic 1995: 222-229 - [c5]Michael J. Schulte, Earl E. Swartzlander Jr.:
A Processor for Staggered Interval Arithmetic. ASAP 1995: 104-112 - [c4]Michael J. Schulte, Earl E. Swartzlander Jr.:
A coprocessor for accurate and reliable numerical computations. ICCD 1995: 686-691 - 1994
- [j2]Michael J. Schulte, J. Omar, Earl E. Swartzlander Jr.:
Optimal initial approximations for the Newton-Raphson division algorithm. Computing 53(3-4): 233-242 (1994) - [j1]Michael J. Schulte, Earl E. Swartzlander Jr.:
Hardware Designs for Exactly Rounded Elemantary Functions. IEEE Trans. Computers 43(8): 964-973 (1994) - [c3]Michael J. Schulte, Earl E. Swartzlander Jr.:
A variable-precision interval arithmetic processor. ASAP 1994: 248-258 - 1993
- [c2]Michael J. Schulte, Earl E. Swartzlander Jr.:
Exact rounding of certain elementary functions. IEEE Symposium on Computer Arithmetic 1993: 138-145 - [c1]K'Andrea C. Bickerstaff, Michael J. Schulte, Earl E. Swartzlander Jr.:
Reduced area multipliers. ASAP 1993: 478-489
Coauthor Index
C. John Glossner
aka: John Glossner
aka: John Glossner
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