Instructions per second (IPS) is a measure of a computer's processor speed. For complex instruction set computers (CISCs), different instructions take different amounts of time, so the value measured depends on the instruction mix; even for comparing processors in the same family the IPS measurement can be problematic. Many reported IPS values have represented "peak" execution rates on artificial instruction sequences with few branches and no cache contention, whereas realistic workloads typically lead to significantly lower IPS values. Memory hierarchy also greatly affects processor performance, an issue barely considered in IPS calculations. Because of these problems, synthetic benchmarks such as Dhrystone are now generally used to estimate computer performance in commonly used applications, and raw IPS has fallen into disuse. The term is commonly used in association with a metric prefix (k, M, G, T, P, or E) to form kilo instructions per second (kIPS), million instructions per second (MIPS), and billion instructions per second (GIPS) and so on. Formerly TIPS was used occasionally for "thousand ips". (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
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
Introduction to Functions - Part 1
This video introduces the definition of a function, domain, and range. http://mathispower4u.yolasite.com/
From playlist Intro to Functions
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
Learn Excel - Round to Quarter Hour - Podcast 2210
A company wants to bill in quarter hours and they always want to round up to the next quarter hour. 1:42 There are 24 hours in a day. There are 24x4 or 96 quarter hours in a day. Thus, 15 minutes is equal to 1/96 2:07 Use CEILING(A2,1/96) to round up to the next higher quarter hour. 2:45 T
From playlist Excel Functions
Ex: Convert Feet Per Second to Miles Per Hour
This video provides an example of how to convert feet per second to miles per hour. Complete Video Library: www.mathispower4u.com
From playlist Unit Conversions: American or Standard Units
From playlist Pre-Algebra/Introductory Algebra
Ex: Determine How Far Ahead a Car Passing Another Car Is Ahead After 5 Minutes
This video explains how to determine how far ahead a car will be 5 minutes after passing another car. http://mathispower4u.com
From playlist Mathematics General Interest
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 - 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
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
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
AstroGPU CUDA Optimizations Part II - Mark Harris
Topic: AstroGPU CUDA Optimizations Part II Speaker: Mark Harris
From playlist Natural Sciences
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
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
AstroGPU CUDA Optimizations Part I - Mark Harris
Topic: AstroGPU CUDA Optimizations Part I Speaker: Mark Harris
From playlist Natural Sciences
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
Stanford Seminar - Accelerating ML Recommendation with over a Thousand RISC-V/Tensor Processors...
Dave Ditzel is the founder and executive Chairman of Esperanto Technologies Inc. This talk was given on March 2, 2022. TAccelerating ML Recommendation with over a Thousand RISC-V/Tensor Processors on a 7nm Chip To accelerate Machine Learning Recommendation and other workloads, Esperant
From playlist Stanford EE380-Colloquium on Computer Systems - Seminar Series
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
Speaker: Torsten Hoefler Computing of Tomorrow or Yesterday The x86 architecture has been the de facto standard for many years. Attempts to take the turn, like Intel tried with the VLIW Itanium Architetcture were desastrous. But the x86 architecture is not able to fulfil the demands of t
From playlist 22C3: Private Investigations