The Xeon. It is intended for high end workstations and servers.
A processor, or more commonly a CPU, is an individualized processing device. It may contain multiple cores. A core is a bank of registers and dedicated cache structure that performs all of a processor's tasks, but is not an entire processor. For example, more multi-core processors have a separate array of logic functions that are not integrated with the core, such as the Memory Controller in AMD Phenom and Phenom II processors. There is one (or two, in the Phenom II) memory controllers total for the processor, reguardless of the number of cores. Think of a 'core' as a cylinder in an engine. A V8 enginer has 4 'cores', but the engine is the 'processor'. You can have a V12 or a W32 or a V4 or any of another combination, but there's only one processor. However the number of cores can greatly influence the overall power and capability of the processor.
Differences between scalar and superscalar processors generally boil down to quantity and speed. A scalar processor, considered to be the simplest of all processors, works on one or two computer data items at a given time. The superscalar processor works on multiple instructions and several groups of multiple data items at a time. Scalar and superscalar processors both function the same way in terms of how they manipulate data, but their difference lies in how many manipulations and data items they can work on in a given time. Superscalar processors can handle multiple instructions and data items, while the scalarprocessor simply cannot, therefore making the former a more powerful processor than the latter. Scalar and superscalar processors both have some similarities with vector processors. Like ascalar processor, a vector processor also executes a single instruction at a time, but instead of just manipulating one data item, its single instruction can access multiple data items. Similar with the superscalar processor, a vector processor has several redundant functional units that let it manipulate multiple data items, but it can only work on a single instruction at a time. In essence, a superscalar processor is a combination of a scalar processor and a vector processor.
A multi-core processor is one which combines what are essentially multiple CPUs into a single chip. As far as the operating system and other software are concerned, it is the same as a dual or quad-cpu computer system, even though the cpus are physically one single unit.
It minimizes the miss match between the main memory and the processor Actually, there is one reason for a cache to exist: speed. A cache exists to speed up the time that the processor takes to obtain a bit of data. Typically, main memory is many times slower than the processor - in modern computers, it can be 1000 times slower. So, caches are made up of memory more expensive and faster than main memory, to store parts of main memory in, in the hopes that the data the processor wants will be available in the cache.
if you mean veto then it means it was opposed or turned down by more powerful judgment
The Xeon processor is stronger than the Celeron processor.
Xeon
xeon
That depends on generation of each processor. If they are both belong to the same production period Intel Xeon is more powerful. In some cases difference in 1-2 generation might not matter and Xeon would be still more powerful. You will have to be more specific if you want to receive a better answer.
Xeon by far and away; it was designed as a server processor. The Pro introduced some new features many years ago when it came into being.
Most definitely the xenon CPU as it is a server CPU :-)
Depends on what type of server, it most earlier servers (Pentium 2/3 days) The most common Slot 1/2 Processor used was the XEON by Intel. It covered Pentium 2 and Pentium 3 servers, the XEON Processor wasn't like a normal PC version, it featured a larger Cache which would help the processor process more and at a faster rate.
It means that you are booting with more than one processor (such as the Intel Xeon processors) and thus able to perform infinitely more instructions and data processing.
Intel Celeron processors are generally designed to be an inexpensive alternative to Pentiums, which are more powerful (but less energy efficient) chips by comparison.
The Celeron processor is a good and cheaper alternative to Pentium II when higher performance is not required and the price is a important. The Celeron processors are based on the same core as more expensive Pentium processors but lack in features such as L2 cache size and bus speed.
intel pentium
There are onlu TWO types of processors. These are: 1. Intel 2. AMD And of course there are some different processors that do different things, even though they are the same brand name. A Macintosh processor is different from a Windows processor, because the Macintosh processor (my opinion) is more powerful. There are also different processors for different for different types of technology. A PDA would have 64-bit processor, but they are under Intel. The United States is the only country that makes processors, both Intel and AMD. The specific types of processors are: Intel: (These are the current ones that most people have) 1. Pentium Pro 2. Pentium II 3. Celeron (Pentium Based But More Powerful) 4. Pentium II Xeon 5. Pentium III 6. Pentium II and III Xeon 7. Celeron (New Generation, Pentium III Based) 8. Pentium 4 (Most common) 9. Pentium M 10. Intel Core 11. Dual Core Xeon LV 12. Intel Pentium Dual Core 13. Intel Core 2 14. Pentium Duo 15. Pentium Dual Core 16. Core 2 Quad 16. (Newest) Intel Pentuim 2 Dual Core Processor Amd: (The Current One's) 1. AMD Athlon 2. AMD Athlon 64 3. AMD Athlon X2 4. AMD Athlon Xp 5. AMD Duron 6. AMD Sempron 7. AMD Turion 8. AMD Opteron 9. AMD Phenom 1. The PowerPC processor (formerly used in some MacIntosh computers) is used in the Xbox 360, the Wii, and the PlayStation 3. The most popular 32 bit processor (in terms of units sold) is the ARM processor.