Name | DL | Torrents | Total Size | Video Lectures [edit] | 155 | 727.63GB | 3201 | 0 |
coursera-comp-arch (121 files)
assigments/assigment1/PS1.pdf | 129.15kB |
assigments/assigment1/PS1_Solutions_Small.pdf | 1.77MB |
assigments/assigment1/PS1A.pdf | 817.26kB |
assigments/assigment2/PS2.pdf | 140.30kB |
assigments/assigment2/PS2_Solutions_Small.pdf | 807.17kB |
assigments/assigment3/PS3.pdf | 178.60kB |
assigments/assigment3/PS3_Solutions.pdf | 133.84kB |
assigments/assigment4/PS4.pdf | 167.16kB |
assigments/assigment4/PS4_Solutions_Small.pdf | 366.68kB |
assigments/assigment4/PS4A.pdf | 256.14kB |
assigments/assigment5/PS5.pdf | 179.24kB |
assigments/assigment5/PS5_Solutions.pdf | 888.57kB |
assigments/assigment5/PS5A.pdf | 564.75kB |
lectures/01-Introduction/Computer Architecture 0.0 L00-S1Course Introduction.mp4 | 104.24MB |
lectures/02-Instruction-Set-Architecture-Microcode/Computer Architecture 1.0 L1S1 Course Overview (434).mp4 | 19.04MB |
lectures/02-Instruction-Set-Architecture-Microcode/Computer Architecture 1.1 L1S2 Motivation (1640).mp4 | 99.66MB |
lectures/02-Instruction-Set-Architecture-Microcode/Computer Architecture 1.2 L1S3 Course Content (910).mp4 | 27.00MB |
lectures/02-Instruction-Set-Architecture-Microcode/Computer Architecture 1.3 L1S4 Architecture and Microarchitecture (2337).mp4 | 55.40MB |
lectures/02-Instruction-Set-Architecture-Microcode/Computer Architecture 1.4 L1S5 Machine Models (1602).mp4 | 34.43MB |
lectures/02-Instruction-Set-Architecture-Microcode/Computer Architecture 1.5 L1S6 ISA Characteristics (2547).mp4 | 60.84MB |
lectures/02-Instruction-Set-Architecture-Microcode/Computer Architecture 1.6 L1S7 Recap (0117).mp4 | 2.02MB |
lectures/03-Pipelining-Review/Computer Architecture 2.0 L2S1 Microcoded Microarchitecture (1408).mp4 | 85.84MB |
lectures/03-Pipelining-Review/Computer Architecture 2.1 L2S2 Pipeline Basics (3051).mp4 | 67.84MB |
lectures/03-Pipelining-Review/Computer Architecture 2.2 L2S3 Structural Hazard (1013).mp4 | 24.29MB |
lectures/03-Pipelining-Review/Computer Architecture 2.3 L2S4 Data Hazards (4633).mp4 | 97.45MB |
lectures/04-Cache-Review/Computer Architecture 3.0 L3S1 Control Hazards Jumps (1556).mp4 | 28.25MB |
lectures/04-Cache-Review/Computer Architecture 3.1 L3S2 Control Hazards Branch (2402).mp4 | 49.82MB |
lectures/04-Cache-Review/Computer Architecture 3.2 L3S3 Control Hazards Others(751).mp4 | 16.35MB |
lectures/04-Cache-Review/Computer Architecture 3.3 L3S4 Memory Technologies (2247).mp4 | 52.95MB |
lectures/04-Cache-Review/Computer Architecture 3.4 L3S5 Motivation for Caches (2225).mp4 | 133.55MB |
lectures/05-Superscalar1/Computer Architecture 4.0 L4S1 Classifying Caches (2807).mp4 | 167.47MB |
lectures/05-Superscalar1/Computer Architecture 4.1 L4S2 Cache Performance (1711).mp4 | 32.80MB |
lectures/05-Superscalar1/Computer Architecture 4.2 L4S3 Superscalar 1 (642).mp4 | 14.12MB |
lectures/05-Superscalar1/Computer Architecture 4.3 L4S4 Basic Two-way In-order Superscalar (456).mp4 | 9.94MB |
lectures/05-Superscalar1/Computer Architecture 4.4 L4S5 Fetch Logic and Alignment (1101).mp4 | 20.05MB |
lectures/06-Superscalar3-and-Exceptions/Computer Architecture 5.0 L5S1 Baseline Superscalar and Alignment (416).mp4 | 8.90MB |
lectures/06-Superscalar3-and-Exceptions/Computer Architecture 5.1 L5S2 Interrupts and Bypassing (1213).mp4 | 24.81MB |
lectures/06-Superscalar3-and-Exceptions/Computer Architecture 5.2 L5S3 Interrupts and Exceptions (2925).mp4 | 60.01MB |
lectures/06-Superscalar3-and-Exceptions/Computer Architecture 5.3 L5S4 Introduction to Out-of-Order Processors (3053).mp4 | 64.93MB |
lectures/07-Superscalar3/Computer Architecture 6.0 L6S1 Review of Out-of-Order Processors (326).mp4 | 7.19MB |
lectures/07-Superscalar3/Computer Architecture 6.1 L6S2 I2O2 Processors (1958).mp4 | 40.68MB |
lectures/07-Superscalar3/Computer Architecture 6.2 L6S3 I2O1 Processors (2844).mp4 | 169.75MB |
lectures/07-Superscalar3/Computer Architecture 6.3 L6S4 IO3 Processors (1623).mp4 | 33.56MB |
lectures/07-Superscalar3/Computer Architecture 6.4 L6S5 IO2I Processors (431).mp4 | 8.46MB |
lectures/08-Superscalar4/Computer Architecture 7.0 L7S1 Speculation and Branch (1437).mp4 | 30.49MB |
lectures/08-Superscalar4/Computer Architecture 7.1 L7S2 Register Renaming Introduction (1108).mp4 | 66.37MB |
lectures/08-Superscalar4/Computer Architecture 7.2 L7S3 Register Renaming with Pointers to IQ and ROB (2454).mp4 | 148.66MB |
lectures/08-Superscalar4/Computer Architecture 7.3 L7S4 Register Renaming with Values in IQ and ROB (1214).mp4 | 70.87MB |
lectures/08-Superscalar4/Computer Architecture 7.4 L7S5 Memory Disambiguation (949).mp4 | 58.63MB |
Type: Course
Tags:
Bibtex:
Tags:
Bibtex:
@article{, title= {[Coursera] Computer Architecture }, keywords= {}, journal= {}, author= {David Wentzlaff (Princeton University)}, year= {}, url= {}, license= {}, abstract= {About this course: In this course, you will learn to design the computer architecture of complex modern microprocessors. ### Introduction, Instruction Set Architecture, and Microcode This lecture will give you a broad overview of the course, as well as the description of architecture, micro-architecture and instruction set architectures. ### Pipelining Review This lecture covers the basic concept of pipeline and two different types of hazards. ### Cache Review This lecture covers control hazards and the motivation for caches. ### Superscalar 1 This lecture covers cache characteristics and basic superscalar architecture. ### Superscalar 2 & Exceptions This lecture covers the common issues for superscalar architecture. ### Superscalar 3 This lecture covers different kinds of architectures for out-of-order processors. ### Superscalar 4 This lecture covers the common methods used to improve the performance of out-of-order processors including register renaming and memory disambiguation. ### VLIW 1 This lecture covers the basic concept of very long instruction word (VLIW) processors. ### VLIW2 This lecture covers the common methods used to improve VLIW performance. ### Branch Prediction This lecture covers the motivation and implementation of branch predictors. ### Advanced Caches 1 This lecture covers the advanced mechanisms used to improve cache performance. ### Advanced Caches 2 This lecture covers more advanced mechanisms used to improve cache performance. ### Memory Protection This lecture covers memory management and protection. ### Vector Processors and GPUs This lecture covers the vector processor and optimizations for vector processors. ### Multithreading This lecture covers different types of multithreading. ### Parallel Programming 1 This lecture covers the concepts of parallelism, consistency models, and basic parallel programming techniques. ### Parallel Programming 2 This lecture covers the solutions for the consistency problem in parallel programming. ### Small Multiprocessors This lecture covers the implementation of small multiprocessors. ### Multiprocessor Interconnect 1 This lecture covers the design of interconnects for a multiprocessor. ### Multiprocessor Interconnect 2 This lecture covers the design of interconnects for multiprocessor and network topology. ### Large Multiprocessors (Directory Protocols) This lecture covers the motivation and implementation of directory protocol used for coherence on large multiproccesors. }, superseded= {}, terms= {} }