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The first comprehensive, expert guide for end-to-end Linux application optimization Learn to choose the right tools--and use them together to solve real problems in real production environments Superior application performance is more crucial than ever--and in today?s complex production environments, it?s tougher to ensure, too. If you use Linux, you have extraordinary advantages: complete source code access, plus an exceptional array of optimization tools. But the tools are scattered across the Internet. Many are poorly documented. And few experts know how to use them together to solve real problems. Now, one of those experts has written the definitive Linux tuning primer for every professional: Optimizing Linux(R) Performance. Renowned Linux benchmarking specialist Phillip Ezolt introduces each of today?s most important Linux optimization tools, showing how they fit into a proven methodology for perfecting overall application performance. Using realistic examples, Ezolt shows developers how to pinpoint exact lines of source code that are impacting performance. He teaches sysadmins and application developers how to rapidly drill down to specific bottlenecks, so they can implement solutions more quickly. You?ll discover how to: Identify bottlenecks even if you?re not familiar with the underlying system Find and choose the right performance tools for any problem Recognize the meaning of the events you?re measuring Optimize system CPU, user CPU, memory, network I/O, and disk I/O--and understand their interrelationships Fix CPU-bound, latency-sensitive, and I/O-bound applications, through case studies you can easily adapt toyour own environment Install and use oprofile, the advanced systemwide profiler for Linux systems If you?re new to tuning, Ezolt gives you a clear and practical introduction to all the principles and strategies you?ll need.

CPU Design: Answers to Frequently Asked Questions

CPU cooling - A CPU generates heat while operating. In operation the temperature of the CPU will thus rise until the temperature gradient between the CPU and its surroundings is such that the heat flow matches the input and the CPU temperature reaches equilibrium.

CPU locking - CPU locking is the process of permanently setting a CPU's clock multiplier. AMD CPUs are unlocked in early editions of a model and locked in later editions, but nearly all Intel CPUs are locked and recent models are very resistant to unlocking to prevent fraudulent CPU speed claims by resellers.

CPU core voltage - The CPU core voltage (VCore) is the power supply voltage supplied to the CPU (which is a digital circuit). The amount of power a CPU uses, and thus the amount of heat it dissipates, is the product of this voltage and the current it draws.

CPU socket - The CPU socket or slot is the connector that interfaces between a computer's motherboard and the processor itself. Most CPU sockets and processors in use today are built around the pin grid array (PGA) architecture, in which the pins on the underside of the processor are inserted into the socket, usually with zero insertion force (ZIF) to aid installation.

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