Price Performance Metrics CS3353. CPU Price Performance Ratio Given – Average of 6 clock cycles per instruction – Clock rating for the cpu – Number of.

Slides:

Advertisements

Similar presentations

Tuning the Dennis Shasha and Philippe Bonnet, 2013.

Advertisements

A Case for Redundant Arrays Of Inexpensive Disks Paper By David A Patterson Garth Gibson Randy H Katz University of California Berkeley.

I/O Chapter 8. Outline Introduction Disk Storage and Dependability – 8.2 Buses and other connectors – 8.4 I/O performance measures – 8.6.

Higher Computing Computer Systems 3. Computer Performance.

Enhanced Availability With RAID CC5493/7493. RAID Redundant Array of Independent Disks RAID is implemented to improve: –IO throughput (speed) and –Availability.

Chapter 3 Presented by: Anupam Mittal.  Data protection: Concept of RAID and its Components Data Protection: RAID - 2.

RAID CS5493/7493. RAID : What is it? Redundant Array of Independent Disks configured into a single logical storage unit.

Lecture 36: Chapter 6 Today’s topic –RAID 1. RAID Redundant Array of Inexpensive (Independent) Disks –Use multiple smaller disks (c.f. one large disk)

REDUNDANT ARRAY OF INEXPENSIVE DISCS RAID. What is RAID ? RAID is an acronym for Redundant Array of Independent Drives (or Disks), also known as Redundant.

MEMORY ORGANIZATION Memory Hierarchy Main Memory Auxiliary Memory

Computer Organization and Architecture 18 th March, 2008.

1 Lecture 26: Storage Systems Topics: Storage Systems (Chapter 6), other innovations Final exam stats:  Highest: 95  Mean: 70, Median: 73  Toughest.

1 CS143: Disks and Files. 2 System Architecture CPU Main Memory Disk Controller... Disk Word (1B – 64B) ~ x GB/sec Block (512B – 50KB) ~ x MB/sec System.

Fall 2001CS 4471 Chapter 2: Performance CS 447 Jason Bakos.

BA 471 Management Information Systems Hardware Basics.

CPSC 231 Secondary storage (D.H.)1 Learning Objectives Understanding disk organization. Sectors, clusters and extents. Fragmentation. Disk access time.

I/O Systems and Storage Systems May 22, 2000 Instructor: Gary Kimura.

Princess Sumaya Univ. Computer Engineering Dept. د. بســام كحـالــه Dr. Bassam Kahhaleh.

CSE 451: Operating Systems Winter 2010 Module 13 Redundant Arrays of Inexpensive Disks (RAID) and OS structure Mark Zbikowski Gary Kimura.

Secondary Storage. Internal Hard Disk Drive FeatureAnswer Storage Type Capacity Read / Write Speed Is it Portable? Durability Reliability Scenarios where.

© 2009 IBM Corporation Statements of IBM future plans and directions are provided for information purposes only. Plans and direction are subject to change.

RAID Shuli Han COSC 573 Presentation.

Redundant Array of Independent Disks

RAID: High-Performance, Reliable Secondary Storage Mei Qing & Chaoxia Liao Nov. 20, 2003.

Two or more disks Capacity is the same as the total capacity of the drives in the array No fault tolerance-risk of data loss is proportional to the number.

Chapter 4: Business Hardware Oz (5 th edition). Storage Media Data an programs must be stored on nonvolatile medium –Data is retained even when not powered.

© Janice Regan, CMPT 300, May CMPT 300 Introduction to Operating Systems Operating Systems Overview: Using Hardware.

N-Tier Client/Server Architectures Chapter 4 Server - RAID Copyright 2002, Dr. Ken Hoganson All rights reserved. OS Kernel Concept RAID – Redundant Array.

I/O – Chapter 8 Introduction Disk Storage and Dependability – 8.2 Buses and other connectors – 8.4 I/O performance measures – 8.6.

Disk Access. DISK STRUCTURE Sector: Smallest unit of data transfer from/to disk; 512B 2/4/8 adjacent sectors transferred together: Blocks Read/write heads.

RAID REDUNDANT ARRAY OF INEXPENSIVE DISKS. Why RAID?

Inside your computer. Hardware Review Motherboard Processor / CPU Bus Bios chip Memory Hard drive Video Card Sound Card Monitor/printer Ports.

IT Groundwork ICS3UC - Unit 1 Hardware. Overview of Computer System.

1 Hardware and Software b Hardware the physical, tangible parts of a computerthe physical, tangible parts of a computer keyboard, monitor, wires, chips,

+ CS 325: CS Hardware and Software Organization and Architecture Memory Organization.

Computer Organization and Architecture Tutorial 1 Kenneth Lee.

Computer Performance Computer Engineering Department.

Computer Architecture CPSC 350

Computer Hardware A computer is made of internal components Central Processor Unit Internal External and external components.

RAID Systems Ver.2.0 Jan 09, 2005 Syam. RAID Primer Redundant Array of Inexpensive Disks random, real-time, redundant, array, assembly, interconnected,

1 Important Announcements  Midterm 3 is on Wednesday, April 20 from 7pm to 8:30pm —Practice Midterm 1 released tonight —Please me ASAP in case you.

Lecture 5: 9/10/2002CS170 Fall CS170 Computer Organization and Architecture I Ayman Abdel-Hamid Department of Computer Science Old Dominion University.

Storage Systems CSE 598d, Spring 2007 Lecture ?: Rules of thumb in data engineering Paper by Jim Gray and Prashant Shenoy Feb 15, 2007.

CPSC 231 Secondary storage (D.H.)1 Learning Objectives Understanding disk organization. Sectors, clusters and extents. Fragmentation. Disk access time.

Computer Performance. Hard Drive - HDD Stores your files, programs, and information. If it gets full, you can’t save any more. Measured in bytes (KB,

Enhanced Availability With RAID CC5493/7493. RAID Redundant Array of Independent Disks RAID is implemented to improve: –IO throughput (speed) and –Availability.

VU-Advanced Computer Architecture Lecture 1-Introduction 1 Advanced Computer Architecture CS 704 Advanced Computer Architecture Lecture 1.

1 Components of the Virtual Memory System  Arrows indicate what happens on a lw virtual address data physical address TLB page table memory cache disk.

CS422 Principles of Database Systems Disk Access Chengyu Sun California State University, Los Angeles.

Performance. Moore's Law Moore's Law Related Curves.

Hardware specifications

UNIT 9 Computer architecture

Hardware September 19, 2017.

Components of Computer

Introduction to Computers

Computer Architecture CSCE 350

RAID RAID Mukesh N Tekwani

Computer Architecture

CSE 451: Operating Systems Spring 2005 Module 17 Redundant Arrays of Inexpensive Disks (RAID) Ed Lazowska Allen Center 570.

Chap. 12 Memory Organization

Mark Zbikowski and Gary Kimura

CSE 451: Operating Systems Autumn 2004 Redundant Arrays of Inexpensive Disks (RAID) Hank Levy 1.

Morgan Kaufmann Publishers Memory Hierarchy: Introduction

If a DRAM has 512 rows and its refresh time is 9ms, what should be the frequency of row refresh operation on the average?

RAID RAID Mukesh N Tekwani April 23, 2019

Learning Objectives To be able to describe the purpose of the CPU

CSE 451: Operating Systems Winter 2006 Module 18 Redundant Arrays of Inexpensive Disks (RAID) Ed Lazowska Allen Center 570.

Chapter 2: Performance CS 447 Jason Bakos Fall 2001 CS 447.

Presentation transcript:

Price Performance Metrics CS3353

CPU Price Performance Ratio Given – Average of 6 clock cycles per instruction – Clock rating for the cpu – Number of cores per cpu-die. Calculate the total MIPS rating for the chip Divide the MIPS rating by the cost to get the price performance ratio.

Memory Price Performance Ratio Capacity Speed

Memory Price Performance: Capacity Compute the cost per GB, $/GB

Memory Price Performance: Speed Cost/GB * maximum throughput.

Disk Price Performance Ratio Disk performance is based on – Capacity – Reliability – Speed

Disk Price Performance: Capacity Cents/GB Note that RAID will impact the price performance measure based on capacity. – Determine the RAID storage efficiency – Do not include the Parity storage for this measurement – If the drives are different sizes, then the HDD with the smallest capacity determines the capacity of all the drives in the array. – Include the cost of any additional required hardware like a RAID controller.

Disk Price Performance: Capacity Total cost for array / bytes of available storage

Disk Price Performance: Reliability Based on the – MTBF – Number of drives in the array – Total cost / (MTBF/n-drives)

Disk Price Performance: Speed IO speed and the RAID implementation – Price/byte – speed in bytes/sec – The product of the two above is $/sec.