Hits ?▲ |
Authors |
Title |
Venue |
Year |
Link |
Author keywords |
188 | Yen-Jen Chang |
Lazy BTB: reduce BTB energy consumption using dynamic profiling. |
ASP-DAC |
2006 |
DBLP DOI BibTeX RDF |
|
145 | Tao Li 0006, Ravi Bhargava, Lizy Kurian John |
Rehashable BTB: An Adaptive Branch Target Buffer to Improve the Target Predictability of Java Code. |
HiPC |
2002 |
DBLP DOI BibTeX RDF |
|
135 | Weiyu Tang, Alexander V. Veidenbaum, Alexandru Nicolau, Rajesh K. Gupta 0001 |
Integrated I-cache Way Predictor and Branch Target Buffer to Reduce Energy Consumption. |
ISHPC |
2002 |
DBLP DOI BibTeX RDF |
|
128 | Ioana Burcea, Andreas Moshovos |
Phantom-BTB: a virtualized branch target buffer design. |
ASPLOS |
2009 |
DBLP DOI BibTeX RDF |
predictor metadata prefetching, predictor virtualization, branch target buffer |
122 | Cheol Kim, Sung Chung, Chu Shik Jhon |
A Power-Aware Branch Predictor by Accessing the BTB Selectively. |
J. Comput. Sci. Technol. |
2005 |
DBLP DOI BibTeX RDF |
BTB, PHT, low power design, embedded processor, branch predictor |
119 | Jan Hoogerbrugge |
Cost-Efficient Branch Target Buffers. |
Euro-Par |
2000 |
DBLP DOI BibTeX RDF |
|
102 | Sung-Hoon Shim, Jong Wook Kwak, Cheol Hong Kim, Sung Tae Jhang, Chu Shik Jhon |
Power-Aware Branch Logic: A Hardware Based Technique for Filtering Access to Branch Logic. |
SAMOS |
2005 |
DBLP DOI BibTeX RDF |
|
94 | Noel Tomás, Julio Sahuquillo, Salvador Petit, Pedro López 0001 |
Reducing the Number of Bits in the BTB to Attack the Branch Predictor Hot-Spot. |
Euro-Par |
2008 |
DBLP DOI BibTeX RDF |
|
62 | Nadav Levison, Shlomo Weiss |
Low power branch prediction for embedded application processors. |
ISLPED |
2010 |
DBLP DOI BibTeX RDF |
ARM cortex, BTB, mobile, embedded, power, battery |
61 | Eric F. Weglarz, Kewal K. Saluja, Mikko H. Lipasti |
Minimizing Energy Consumption for High-Performance Processing. |
ASP-DAC/VLSI Design |
2002 |
DBLP DOI BibTeX RDF |
BTB size, voltage reduction, frequency reduction, parallel processing, low power, energy savings, MPEG-2, cache size |
60 | Shyh-An Chi, R.-Ming Shiu, Jih-Ching Chiu, Si-En Chang, Chung-Ping Chung |
Instruction Cache Prefetching with Extended BTB. |
ICPADS |
1997 |
DBLP DOI BibTeX RDF |
|
53 | Truls Asheim, Boris Grot, Rakesh Kumar 0003 |
BTB-X: A Storage-Effective BTB Organization. |
IEEE Comput. Archit. Lett. |
2021 |
DBLP DOI BibTeX RDF |
|
51 | Hans Vandierendonck, André Seznec |
Speculative return address stack management revisited. |
ACM Trans. Archit. Code Optim. |
2008 |
DBLP DOI BibTeX RDF |
Return address prediction, back-up predictor, corruption detection |
51 | Juan Carlos Martínez Santos, Yunsi Fei |
Leveraging speculative architectures for run-time program validation. |
ICCD |
2008 |
DBLP DOI BibTeX RDF |
|
51 | Hisataka Maruyama, Fumihito Arai, Toshio Fukuda |
Gel-tool Sensor Positioned by Optical Tweezers for Local pH Measurement in a Microchip. |
ICRA |
2007 |
DBLP DOI BibTeX RDF |
|
51 | Kaveh Jokar Deris, Amirali Baniasadi |
Branchless cycle prediction for embedded processors. |
SAC |
2006 |
DBLP DOI BibTeX RDF |
low-power design, embedded processors, branch target buffer, power-aware architectures |
51 | Tao Zhang 0037, Weidong Shi, Santosh Pande |
Static Techniques to Improve Power Efficiency of Branch Predictors. |
HiPC |
2004 |
DBLP DOI BibTeX RDF |
|
51 | Weidong Shi, Tao Zhang 0037, Santosh Pande |
Static Techniques to Improve Power Efficiency of Branch Predictors. |
Asia-Pacific Computer Systems Architecture Conference |
2004 |
DBLP DOI BibTeX RDF |
|
51 | Peter Petrov, Alex Orailoglu |
Low-power Branch Target Buffer for Application-Specific Embedded Processors. |
DSD |
2003 |
DBLP DOI BibTeX RDF |
|
51 | Brad Calder, Dirk Grunwald |
Next Cache Line and Set Prediction. |
ISCA |
1995 |
DBLP DOI BibTeX RDF |
|
43 | Sung Woo Chung, Sung-Bae Park |
A Low Power Branch Predictor to Selectively Access the BTB. |
Asia-Pacific Computer Systems Architecture Conference |
2004 |
DBLP DOI BibTeX RDF |
|
43 | Koji Inoue, Vasily G. Moshnyaga, Kazuaki J. Murakami |
A Low Energy Set-Associative I-Cache with Extended BTB. |
ICCD |
2002 |
DBLP DOI BibTeX RDF |
|
34 | Hisataka Maruyama, Fumihito Arai, Toshio Fukuda |
Fabrication of functional gel-microbead for local environment measurement in microchip. |
ICRA |
2008 |
DBLP DOI BibTeX RDF |
|
34 | Chengmo Yang, Alex Orailoglu |
Power efficient branch prediction through early identification of branch addresses. |
CASES |
2006 |
DBLP DOI BibTeX RDF |
low-power design, application-specific processors, dynamic branch prediction |
34 | Philo Juang, Kevin Skadron, Margaret Martonosi, Zhigang Hu, Douglas W. Clark, Phil Diodato, Stefanos Kaxiras |
Implementing branch-predictor decay using quasi-static memory cells. |
ACM Trans. Archit. Code Optim. |
2004 |
DBLP DOI BibTeX RDF |
Energy aware computing |
34 | Enric Musoll |
Speculating to reduce unnecessary power consumption. |
ACM Trans. Embed. Comput. Syst. |
2003 |
DBLP DOI BibTeX RDF |
low-power microarchitectures, Low-power design |
34 | Yul Chu, Mabo Robert Ito |
An Efficient Indirect Branch Predictor. |
Euro-Par |
2001 |
DBLP DOI BibTeX RDF |
|
34 | Jan Hoogerbrugge |
Dynamic Branch Prediction for a VLIW Processor. |
IEEE PACT |
2000 |
DBLP DOI BibTeX RDF |
|
34 | Da-Chih David Tang, Ann Marie Grizzaffi Maynard, Lizy Kurian John |
Contrasting branch characteristics and branch predictor performance of C++ and C programs. |
IPCCC |
1999 |
DBLP DOI BibTeX RDF |
|
28 | David R. Kaeli, Philip G. Emma |
Improving the Accuracy of History Based Branch Prediction. |
IEEE Trans. Computers |
1997 |
DBLP DOI BibTeX RDF |
History-based branch prediction, BTB, call/return stack, case block table, high-level language, execution-driven simulation |
27 | Ahmad Zmily, Christos Kozyrakis |
A low power front-end for embedded processors using a block-aware instruction set. |
CASES |
2007 |
DBLP DOI BibTeX RDF |
instruction re-ordering, low power front-end, software hints, tagless instruction cache, unified instruction cache and BTB, instruction prefetching |
27 | Tao Li 0006, Ravi Bhargava, Lizy Kurian John |
Adapting branch-target buffer to improve the target predictability of java code. |
ACM Trans. Archit. Code Optim. |
2005 |
DBLP DOI BibTeX RDF |
branch-target buffer (BTB), Java, Computer architecture, branch prediction, pipelined processor |
26 | Jiawei Nian, Zongnan Liang, Hongjin Liu, Mengfei Yang |
An Efficient Fault-Tolerant Protection Method for L0 BTB. |
IEEE Trans. Circuits Syst. I Regul. Pap. |
2023 |
DBLP DOI BibTeX RDF |
|
26 | Truls Asheim, Boris Grot, Rakesh Kumar 0003 |
A Storage-Effective BTB Organization for Servers. |
CoRR |
2023 |
DBLP DOI BibTeX RDF |
|
26 | Truls Asheim, Boris Grot, Rakesh Kumar 0003 |
A Storage-Effective BTB Organization for Servers. |
HPCA |
2023 |
DBLP DOI BibTeX RDF |
|
26 | Kiril Simov, Petya Osenova |
Recent Developments in BTB-WordNet. |
GWC |
2023 |
DBLP BibTeX RDF |
|
26 | Jiyong Yu, Trent Jaeger, Christopher Wardlaw Fletcher |
All Your PC Are Belong to Us: Exploiting Non-control-Transfer Instruction BTB Updates for Dynamic PC Extraction. |
ISCA |
2023 |
DBLP DOI BibTeX RDF |
|
26 | Chongbin Zhao, Qirong Jiang |
Impedance-based AC/DC Terminal Modeling and Analysis of MMC-BTB system. |
CoRR |
2022 |
DBLP DOI BibTeX RDF |
|
26 | Truls Asheim, Boris Grot, Rakesh Kumar 0003 |
A Specialized BTB Organization for Servers. |
PACT |
2022 |
DBLP DOI BibTeX RDF |
|
26 | Vishal Gupta 0006, Biswabandan Panda |
Micro BTB: a high performance and storage efficient last-level branch target buffer for servers. |
CF |
2022 |
DBLP DOI BibTeX RDF |
|
26 | Shixin Song, Tanvir Ahmed Khan, Sara Mahdizadeh-Shahri, Akshitha Sriraman, Niranjan K. Soundararajan, Sreenivas Subramoney, Daniel A. Jiménez, Heiner Litz, Baris Kasikci |
Thermometer: profile-guided btb replacement for data center applications. |
ISCA |
2022 |
DBLP DOI BibTeX RDF |
|
26 | Vishal Gupta 0006, Biswabandan Panda |
Micro BTB: A High Performance and Lightweight Last-Level Branch Target Buffer for Servers. |
CoRR |
2021 |
DBLP BibTeX RDF |
|
26 | Hae Gyun Lim, Hyunhee Kim, Kyungmin Kim, Jeongwoo Park, Yeonggeun Kim, Jinhee Yoo, Dasom Heo, Jinhwan Baik, Sung-Min Park 0001, Hyung Ham Kim |
Thermal Ablation and High-Resolution Imaging Using a Back-to-Back (BTB) Dual-Mode Ultrasonic Transducer: In Vivo Results. |
Sensors |
2021 |
DBLP DOI BibTeX RDF |
|
26 | Tanvir Ahmed Khan, Nathan Brown, Akshitha Sriraman, Niranjan K. Soundararajan, Rakesh Kumar 0003, Joseph Devietti, Sreenivas Subramoney, Gilles A. Pokam, Heiner Litz, Baris Kasikci |
Twig: Profile-Guided BTB Prefetching for Data Center Applications. |
MICRO |
2021 |
DBLP DOI BibTeX RDF |
|
26 | Hady H. Fayek, Omar Hanafy Abdalla |
Optimal Settings of BTB-VSC in Interconnected Power System Using TFWO. |
ISIE |
2021 |
DBLP DOI BibTeX RDF |
|
26 | Naoki Matsuda, Hirotaka Okabe, Ayako Omura, Miki Nakano, Koji Miyake, Toshihiko Nagamura, Hideki Kawai |
In situ Observation of Capturing BTB Molecules from Aqueous Solutions with Hydrophobic DNA Nano-Film. |
IEICE Trans. Electron. |
2019 |
DBLP DOI BibTeX RDF |
|
26 | Moumita Das, Ansuman Banerjee, Bhaskar Sardar |
A Shared BTB Design for Multicore Systems. |
CGO |
2019 |
DBLP DOI BibTeX RDF |
|
26 | Kiril Simov, Petya Osenova, Laska Laskova, Ivajlo Radev, Zara Kancheva |
Aligning the Bulgarian BTB WordNet with the Bulgarian Wikipedia. |
GWC |
2019 |
DBLP BibTeX RDF |
|
26 | Laska Laskova, Petya Osenova, Kiril Ivanov Simov, Ivajlo Radev, Zara Kancheva |
Modeling MWEs in BTB-WN. |
MWE-WN@ACL |
2019 |
DBLP DOI BibTeX RDF |
|
26 | Changhee Han, Jaehyeong Lee, Sung Chul Hwang, Gilsoo Jang |
Multi-Objective Optimized Operating Strategy of BTB-VSC for Grid Service. |
ISIE |
2019 |
DBLP DOI BibTeX RDF |
|
26 | Zhenya Xiong, Zhenghao Lin, Haoqi Ren |
基于跳转轨迹的分支目标缓冲研究 (Efficient BTB Based on Taken Trace). |
计算机科学 |
2017 |
DBLP DOI BibTeX RDF |
|
26 | Andrey A. Radionov, Vadim R. Gasiyarov, Alexander S. Maklakov |
Hybrid PWM on the basis of SVPWM and SHEPWM for VSI as part of 3L-BtB-NPC converter. |
IECON |
2017 |
DBLP DOI BibTeX RDF |
|
26 | Ryotaro Kobayashi, Kaoru Saito, Hajime Shimada |
Energy Reduction of BTB by Focusing on Number of Branches per Cache Line. |
J. Inf. Process. |
2016 |
DBLP DOI BibTeX RDF |
|
26 | Yoshio Shimomura, Hiroki Yamamoto, Hayato Usui, Ryotaro Kobayashi, Hajime Shimada |
BTB Energy Reduction by Focusing on Useless Accesses. |
IEICE Trans. Electron. |
2015 |
DBLP DOI BibTeX RDF |
|
26 | Remund Labios, Hwachang Song |
Determining the placement of BTB converters for fault current reduction in a power system by using a hybrid GA-Tabu search method. |
SCIS&ISIS |
2014 |
DBLP DOI BibTeX RDF |
|
26 | Jorge Almaguer, Victor M. Cárdenas, Homero Miranda, Janeth Alcalá |
Modular multilevel BTB converter with parallel cells. |
IECON |
2014 |
DBLP DOI BibTeX RDF |
|
26 | Kosaku Fukuda, Lin Meng, Takeshi Kumaki, Takeshi Ogura |
A CAM-Based Separated BTB for a Superscalar Processor. |
CANDAR |
2013 |
DBLP DOI BibTeX RDF |
|
26 | Tomoyuki Nakabayashi, Takahiro Sasaki, Toshio Kondo |
Dynamic BTB Resizing for Variable Stages Superscalar Architecture. |
CANDAR |
2013 |
DBLP DOI BibTeX RDF |
|
26 | D. Changdao, Mariagrazia Graziano, Ernesto Sánchez 0001, Matteo Sonza Reorda, Maurizio Zamboni, N. Zhifan |
On the functional test of the BTB logic in pipelined and superscalar processors. |
LATW |
2013 |
DBLP DOI BibTeX RDF |
|
26 | Ricardo Sierra, Janeth Alcalá, Victor M. Cárdenas, Javier Perez-Ramirez, Ana Rivera |
Evaluating the performance of the BTB converter under unbalanced voltage sags. |
CCE |
2012 |
DBLP DOI BibTeX RDF |
|
26 | Abnery Ortiz, Trond Ostrem, Waldemar Sulkowski |
Tapping power from a microgrid based on a BtB converter. |
ISGT Europe |
2011 |
DBLP DOI BibTeX RDF |
|
26 | Roger Kahn, Shlomo Weiss |
Reducing leakage power with BTB access prediction. |
Integr. |
2010 |
DBLP DOI BibTeX RDF |
|
26 | Kaveh Jokar Deris, Amirali Baniasadi |
Power-aware BTB for modern processors. |
Comput. Electr. Eng. |
2010 |
DBLP DOI BibTeX RDF |
|
26 | Muhammad Umar Farooq 0003, Lei Chen, Lizy Kurian John |
Value Based BTB Indexing for indirect jump prediction. |
HPCA |
2010 |
DBLP DOI BibTeX RDF |
|
26 | Roger Kahn, Shlomo Weiss |
Thrifty BTB: A comprehensive solution for dynamic power reduction in branch target buffers. |
Microprocess. Microsystems |
2008 |
DBLP DOI BibTeX RDF |
|
26 | Shuai Wang 0006, Jie S. Hu, Sotirios G. Ziavras |
BTB Access Filtering: A Low Energy and High Performance Design. |
ISVLSI |
2008 |
DBLP DOI BibTeX RDF |
|
26 | Yen-Jen Chang |
An Energy-Efficient BTB Lookup Scheme for Embedded Processors. |
IEEE Trans. Circuits Syst. II Express Briefs |
2006 |
DBLP DOI BibTeX RDF |
|
26 | Daniel Chaver, Miguel A. Rojas, Luis Piñuel, Manuel Prieto 0001, Francisco Tirado, Michael C. Huang 0001 |
Energy-aware fetch mechanism: trace cache and BTB customization. |
ISLPED |
2005 |
DBLP DOI BibTeX RDF |
adaptive, profiling, instruction fetch |
26 | Hidenori Sato, Toshinori Sato |
A static and dynamic energy reduction technique for I-cache and BTB in embedded processors. |
ASP-DAC |
2004 |
DBLP DOI BibTeX RDF |
|
26 | Soren Prag, Josephine C. Adams |
Molecular phylogeny of the kelch-repeat superfamily reveals an expansion of BTB/kelch proteins in animals. |
BMC Bioinform. |
2003 |
DBLP DOI BibTeX RDF |
|
26 | Stevan A. Vlaovic, Edward S. Davidson, Gary S. Tyson |
Improving BTB performance in the presence of DLLs. |
MICRO |
2000 |
DBLP DOI BibTeX RDF |
|
26 | Weili Chu, Stamatis Vassiliadis, José G. Delgado-Frias |
The multi-associative branch target buffer: a cost effective BTB mechanism. |
Microprocess. Microprogramming |
1995 |
DBLP DOI BibTeX RDF |
|
17 | Hisataka Maruyama, Toshio Fukuda, Fumihito Arai |
Laser manipulation and optical adhesion control of functional gel-microtool for on-chip cell manipulation. |
IROS |
2009 |
DBLP DOI BibTeX RDF |
|
17 | Christos Strydis, Georgi Gaydadjiev |
Evaluating Various Branch-Prediction Schemes for Biomedical-Implant Processors. |
ASAP |
2009 |
DBLP DOI BibTeX RDF |
|
17 | Yixin Shi, Gyungho Lee |
Augmenting Branch Predictor to Secure Program Execution. |
DSN |
2007 |
DBLP DOI BibTeX RDF |
Control Flow Validation, Indirect Branch, Bloom Filter, Software Protection, Branch Predictor |
17 | Chih-Da Chien, Chih-Wei Wang, Chiun-Chau Lin, Tien-Wei Hsieh, Yuan-Hwa Chu, Jiun-In Guo |
A Low Latency Memory Controller for Video Coding Systems. |
ICME |
2007 |
DBLP DOI BibTeX RDF |
|
17 | Fei Gao, Suleyman Sair |
Exploiting Intra-function Correlation with the Global History Stack. |
SAMOS |
2005 |
DBLP DOI BibTeX RDF |
|
17 | Dharmesh Parikh, Kevin Skadron, Yan Zhang 0028, Mircea R. Stan |
Power-Aware Branch Prediction: Characterization and Design. |
IEEE Trans. Computers |
2004 |
DBLP DOI BibTeX RDF |
target prediction, highly-biased branches, pipeline gating, speculation control, Low-power design, power, branch prediction, processor architecture, energy-aware systems, banking |
17 | Dharmesh Parikh, Kevin Skadron, Yan Zhang 0028, Marco Barcella, Mircea R. Stan |
Power Issues Related to Branch Prediction. |
HPCA |
2002 |
DBLP DOI BibTeX RDF |
Performance, Power, Energy, Branch Prediction |
17 | Koji Inoue, Vasily G. Moshnyaga, Kazuaki J. Murakami |
Dynamic Tag-Check Omission: A Low Power Instruction Cache Architecture Exploiting Execution Footprints. |
PACS |
2002 |
DBLP DOI BibTeX RDF |
|
17 | Oliverio J. Santana, Ayose Falcón, Enrique Fernández, Pedro Medina, Alex Ramírez, Mateo Valero |
A Comprehensive Analysis of Indirect Branch Prediction. |
ISHPC |
2002 |
DBLP DOI BibTeX RDF |
indirect branch, Multi-Stage Cascaded Predictor, branch prediction, microarchitecture, Branch Target Buffer |
17 | Koji Inoue, Vasily G. Moshnyaga, Kazuaki J. Murakami |
A history-based I-cache for low-energy multimedia applications. |
ISLPED |
2002 |
DBLP DOI BibTeX RDF |
|
17 | Jih-Ching Chiu, I-Huan Huang, Chung-Ping Chung |
Design of Instruction Stream Buffer with Trace Support for X86 Processors. |
ICCD |
2000 |
DBLP DOI BibTeX RDF |
instruction stream buffer, x86 architecture, multiple instruction fetch, superscalar processor, ILP, Trace cache |
17 | Glenn Reinman, Todd M. Austin, Brad Calder |
A Scalable Front-End Architecture for Fast Instruction Delivery. |
ISCA |
1999 |
DBLP DOI BibTeX RDF |
|
17 | James O. Bondi, Ashwini K. Nanda, Simonjit Dutta |
Integrating a Misprediction Recovery Cache (MRC) into a Superscalar Pipeline. |
MICRO |
1996 |
DBLP DOI BibTeX RDF |
branch target buffer technology, deep pipelines, misprediction recovery cache integration, performance loss, residual misprediction penalty, superscalar pipeline, microprocessor chips, microprocessor designs, CISC, multiple instructions |
17 | Shlomit S. Pinter, Adi Yoaz |
Tango: A Hardware-Based Data Prefetching Technique for Superscalar Processors. |
MICRO |
1996 |
DBLP DOI BibTeX RDF |
LRU mechanism, SPEC92 benchmark, Tango, base line architecture, hardware-based data prefetching technique, memory reference instructions, program progress graph, performance, parallel processing, instruction level parallelism, simulation results, superscalar processors, branch target buffer, instruction prefetching, hardware resources, slack time |
17 | Yue Liu, David R. Kaeli |
Branch-Directed and Stride-Based Data Cache Prefetching. |
ICCD |
1996 |
DBLP DOI BibTeX RDF |
|