DOCSLIB.ORG
Explore
Sign Up
Log In
Upload
Search
Home
» Tags
» Cache invalidation
Cache invalidation
2.2 Adaptive Routing Algorithms and Router Design 20
Adaptive Parallelism for Coupled, Multithreaded Message-Passing Programs Samuel K
Detecting False Sharing Efficiently and Effectively
Leaper: a Learned Prefetcher for Cache Invalidation in LSM-Tree Based Storage Engines
CSC 256/456: Operating Systems
Improving Performance of the Distributed File System Using Speculative Read Algorithm and Support-Based Replacement Technique
Parallel Computer Architecture and Programming CMU 15-418/15-618, Spring 2016 Tunes Bang Bang (My Baby Shot Me Down) Nancy Sinatra (Kill Bill Volume 1 Soundtrack)
Efficient Synchronization Mechanisms for Scalable GPU Architectures
CIS 501 Computer Architecture This Unit: Shared Memory
Download Slides As
A Survey of Cache Coherence Schemes for Multiprocessors
In-Network Cache Coherence
Invisispec: Making Speculative Execution Invisible in the Cache Hierarchy
Architectural Support for Thread Communications in Multi-Core Processors ⇑ Sevin Varoglu , Stephen Jenks
Advances Towards Data-Race-Free Cache Coherence Through Data Classification
Introduction a Brief History of Computing
PREDATOR: Predictive False Sharing Detection
Arxiv:2001.10483V1 [Cs.DC] 28 Jan 2020 Ates 4 PB of Data Daily [6]
Top View
Swich: a Prototype for Efficient Cache-Level Checkpointing and Rollback
HMG: Extending Cache Coherence Protocols Across Modern Hierarchical Multi-GPU Systems
Caching at the Web Scale
Exploiting Parallelism in Gpus
Design and Verification of Adaptive Cache Coherence Protocols
Cache Coherence Techniques for Multicore Processors
Deterministic Memory Hierarchy and Virtualization for Modern Multi-Core Embedded Systems
Power and Performance Optimization for Network-On-Chip Based Many-Core Processors
A Program Optimization for Automatic Database Result Caching
Shared Memory Programming on NUMA–Based Clusters Using a General and Open Hybrid Hardware / Software Approach
Modification of Cache Inclusion Property for Multicore Systems
Muontrap: Preventing Cross-Domain Spectre-Like Attacks by Capturing Speculative State
Most Slides Adapted from David Patterson. Some from Mohomed
Automatic Invalidation in Application-Level Caching Systems
Cache Coherence)
Cooperative Cache Scrubbing
Multi-Threading Performance on Commodity Multi-Core Processors
Parallel Computer Architecture and Programming CMU / 清华 大学
Information to Users
Gpufs: Integrating a File System with Gpus
Chapter 1 Introduction
Lazy Release Consistency for Gpus
Muontrap: Preventing Cross-Domain Spectre-Like Attacks by Capturing Speculative State
Dynamic Cache Contention Detection in Multi-Threaded Applications
TOPIC1 PIPELINING What Is Pipelining? Pipelining Is the Process of Accumulating Instruction from the Processor Through a Pipeline
An Integrated Multiprocessor for Matrix Algorithms
A Performance Study of Multithreading
A UPC Runtime System 15 4.1 the Runtime System API
When Is the Cache Warm? Manufacturing a Rule of Thumb
A Programming Model for Non-Cache-Coherent Shared Memory Architectures
The Numachine Multiprocessor: Design and Analysis
Directory-Based Cache Coherence
Closing Hyper-Threading Side Channels on SGX with Contrived Data Races
Flynn's Taxonomy PRAM Model BSP Model Single Processor Systems
Parallel Computing Stanford CS149, Winter 2019 Lecture
Exploitable Hardware Features and Vulnerabilities Enhanced Side-Channel Attacks on Intel SGX and Their Countermeasures
Efficient Computation of Sum-Products on Gpus Through
Low Latency for Cloud Data Management
Pinkston, Timothy Mark, Ph.D
Test the Value of This State Bit, We Provide the Software with a Mecha- Nism to React to Memory System Activity
Analysis of False Cache Line Sharing Effects on Multicore Cpus
TOPICS in GPU-BASED VIDEO PROCESSING Thomas J
Multi-Core and Many-Core Processor Architectures
Scalability, Performance & Caching
MIPS64® I6500 Multiprocessing System Programmers Guide
Generation of Custom Run-Time Reconfigurable Hardware For
NUMA-Aware Gpus
Portable High-Order Finite Element Kernels I: Streaming Operations
CS 636: Performance Analysis of Concurrent Programs Swarnendu Biswas