Which of the following best describes hyperthreading?
Which of the following processors was the first dual-core design by AMD? Which one of the listed processors was the last slot-based processor designed by Intel? Which of the following are considered integrated I/O ports?
AMD K10 BASED CPUS HOW TO
Within these pages you will learn how to install and troubleshoot motherboards, processors, and adapter cards and discover some of the considerations to take into account when building the core of a PC. It is important to know how many and what type of adapter card slots are available on your motherboard before selecting specific adapter cards. Adapter cards are vital because they allow video, audio, and network capabilities. Deciding on a CPU and motherboard should be the first tasks at hand when building a PC. The processor (or CPU) is the "brain" of the computer and takes care of the bulk of the PC's calculations. Everything connects to the motherboard, so it stands to reason that proper planning and design of a PC, to a certain degree, starts with this component. In this chapter we'll talk about some of the core components of the computer-the guts of the computer-including the motherboard, processor, and adapter cards. This chapter covers a portion of CompTIA A+ 220-701 objectives 1.2, 1.4, and 1.5, and CompTIA A+ 220-702 objectives 1.1 and 1.2. Installing Adapter Cards-This section demonstrates how to install video and sound cards, and how to troubleshoot common adapter card issues.Processors and CPUs-In this section you'll learn about the various types of processors available, their architecture and technologies, and installing and troubleshooting processors.Motherboards and Their Components-This section talks about the foundation of the computer, form factors, integrated ports and interfaces, memory slots, and expansion slots, and demonstrates how to install and troubleshoot motherboards.This chapter covers the following subjects: Processors with a "u" following the model number (e.g., 250u) are ultra-low voltage models.CompTIA A+ Cert Guide (220-701 and 220-702), 2nd Edition Processors with an "e" following the model number (e.g., 245e) are low-power models, typically 45W for Athlons, 65W for Phenoms. HyperTransport Technology (not the same as Intel Hyper-Threading Technology) Includes: AMD Direct Connect ArchitectureĪMD PowerNow! Technology (Cool’n’Quiet Technology) In some cases, the Phenom II Deneb die is used with disabled 元 cache and cores in the case. The triple-core Rana is derived from the Propus quad-core design, with one core disabled. The Athlon II x2 200e-220 chips have less L2 cache than the rest of the Regor line. Regor is a native dual-core design with lower TDP and additional L2 to offset the removal of 元 cache. There are two principal Athlon II dies: the dual-core Regor die with 1 MB L2 Cache per core and the four-core Propus with 512 KB per core. However, unlike its Phenom siblings, it does not contain any 元 Cache.
AMD K10 BASED CPUS SERIES
The Athlon II series is based on the AMD K10 architecture and derived from the Phenom II series. 3.3 Propus (45 nm SOI with immersion lithography).3.2 Rana (45 nm SOI with immersion lithography).3.1 Regor (45 nm SOI with immersion lithography).