In computer architecture, cycles per instruction (aka clock cycles per instruction, clocks per instruction, or CPI) is one aspect of a processor's performance: the average number of clock cycles per instruction for a program or program fragment. It is the multiplicative inverse of instructions per cycle. (Wikipedia).
The way how to show time using clocks. It is 12 hours video you can use as a screensaver on clock, every number changing is completely random. Please enjoy.
From playlist Timers
Measuring Time Solution - Intro to Algorithms
This video is part of an online course, Intro to Algorithms. Check out the course here: https://www.udacity.com/course/cs215.
From playlist Introduction to Algorithms
Scheduling: The Decreasing Time Algorithm
This lesson explains how to use the decreasing time algorithm to create a priority list and then a schedule. Site: http://mathispower4u.com
From playlist Scheduling
This videos explains how to convert from one unit of time to another. It also shows how to add and subtract different units of time. Complete Video List: http://www.mathispower4u.yolasite.com
From playlist Unit Conversions: Converting Between Standard and Metric Units
Stanford Seminar -Drinking from the Firehose: How the Mill CPU Decodes 30+ Instructions per Cycle
"Drinking from the Firehose: How the Mill CPU Decodes 30+ Instructions per Cycle" -Ivan Godard, Out-of-the-Box Computing Colloquium on Computer Systems Seminar Series (EE380) presents the current research in design, implementation, analysis, and use of computer systems. Topics range from
From playlist Engineering
Stanford Seminar - KUtrace 2020
Dick Sites February 5, 2020 Observation tools for understanding occasionally-slow performance in large-scale distributed transaction systems are not keeping up with the complexity of the environment. The same applies to large database systems, to real-time control systems in cars and airp
From playlist Stanford EE380-Colloquium on Computer Systems - Seminar Series
Stanford Seminar - A Superscalar Out-of-Order x86 Soft Processor for FPGA
Henry Wong University of Toronto, Intel June 5, 2019 Although FPGAs continue to grow in capacity, FPGA-based soft processors have grown little because of the difficulty of achieving higher performance in exchange for area. Superscalar out-of-order processor microarchitectures have been us
From playlist Stanford EE380-Colloquium on Computer Systems - Seminar Series
MIT 6.004 Computation Structures, Spring 2017 Instructor: Chris Terman View the complete course: https://ocw.mit.edu/6-004S17 YouTube Playlist: https://www.youtube.com/playlist?list=PLUl4u3cNGP62WVs95MNq3dQBqY2vGOtQ2 13.2.1 Building Blocks License: Creative Commons BY-NC-SA More informat
From playlist MIT 6.004 Computation Structures, Spring 2017
Function Comparision - Intro to Algorithms
This video is part of an online course, Intro to Algorithms. Check out the course here: https://www.udacity.com/course/cs215.
From playlist Introduction to Algorithms
Stanford Seminar - Making the Invisible Visible: Observing Complex Software Dynamics
Dick Sites March 9 Dick discusses key topics in his recent book "Understanding Software Dynamics". Over his career he has taken a particular interest in complex software performance and determining why things can be slow. He will cover examples for each of the seven reasons code may not b
From playlist Stanford EE380-Colloquium on Computer Systems - Seminar Series
25c3: The Ultimate Commodore 64 Talk
Speaker: Michael Steil Everything about the C64 in 64 Minutes Retrocomputing is cool as never before. People play C64 games in emulators and listen to SID music, but few people know much about the C64 architecture. This talk attempts to communicate "everything about the C64" to the liste
From playlist 25C3: Nothing to hide
Kernel Recipes 2018 - Meltdown and Spectre: seeing through the magician’s tricks - Paolo Bonzini
Throughout 2018 several computer vulnerabilities got into the spotlight, possessing all the ingredients needed to attract attention: the core issue was unusually located in the processor rather than the software; almost all personal computers, servers and portable devices were affected to
From playlist Kernel Recipes 2018
Advanced CPU Designs: Crash Course Computer Science #9
So now that we’ve built and programmed our very own CPU, we’re going to take a step back and look at how CPU speeds have rapidly increased from just a few cycles per second to gigahertz! Some of that improvement, of course, has come from faster and more efficient transistors, but a number
From playlist Computer Science
15.2.1 Improving Beta Performance
MIT 6.004 Computation Structures, Spring 2017 Instructor: Chris Terman View the complete course: https://ocw.mit.edu/6-004S17 YouTube Playlist: https://www.youtube.com/playlist?list=PLUl4u3cNGP62WVs95MNq3dQBqY2vGOtQ2 15.2.1 Improving Beta Performance License: Creative Commons BY-NC-SA Mo
From playlist MIT 6.004 Computation Structures, Spring 2017
Vintage 1962 "Digital Computer Techniques" - core memory, magnetic storage, etc.
Original un-edited 1962 film. A “somewhat dry” Army/Navy film of basic computer concepts. Detailed descriptions & diagrams of computing “input, store, control, arithmetic, output”, etc. Machine peripherals shown briefly. Film quality starts poor, but gets better towards the end. Nice d
From playlist Computers of the 1960's
Example 1: Determine Unit Rate (MPH)
This video provides an example of how to determine a unit rate in miles per hour. Complete Video List at http://www.mathispower4u.com
From playlist Ratios and Rates