Models of Memory Consistency Quiz Questions and Answers 4 PDF Book Download

Models of memory consistency quiz questions, models of memory consistency MCQs answers, COA quiz 4 to learn CS courses online. Thread level parallelism quiz questions and answers, models of memory consistency multiple choice questions (MCQ) to practice computer architecture and organization test with answers for online colleges and universities courses. Learn models of memory consistency MCQs, introduction to computer performance, architectural design vectors, floating point, models of memory consistency test prep for cisco certifications.

Learn models of memory consistency test with multiple choice question (MCQs): straight-forward model used for memory consistency, is called, with choices sequential consistency, random consistency, remote node, and host node for information technology masters degree online. Learn thread level parallelism questions and answers for scholarships exams' problem-solving, assessment test for IT certifications.

Quiz on Models of Memory Consistency Worksheet 4Quiz Book Download

Models of Memory Consistency Quiz

MCQ: Straight-forward model used for memory consistency, is called

  1. Sequential consistency
  2. Random consistency
  3. Remote node
  4. Host node


Floating Point Quiz

MCQ: Multiplication of these floating points (1.110)10 x (9.200)10 yields

  1. 11.21200010
  2. 10.21201110
  3. 10.21200010
  4. 10.11200010


Architectural Design Vectors Quiz

MCQ: Most essential source of overhead, when gets ignored by chime model is vector

  1. Vector register
  2. Vector element
  3. Vector start-up time
  4. Vector delay time


Introduction to Computer Performance Quiz

MCQ: Processor having Clock cycle of 0.25ns will have clock rate of

  1. 2GHz
  2. 3GHz
  3. 4GHz
  4. 8GHz


Integrated Circuits: Power and Energy Quiz

MCQ: Energy equation of pulse of logic transition, can be computed as

  1. Energydynamic = Capacitive load x Voltage2
  2. Energydynamic = Capacitive load / Voltage2
  3. Energydynamic = Capacitive load - Voltage2
  4. Energydynamic = Capacitive load + Voltage2