All Cedar Mill and Prescott 2M processors (those in the 6xx line) support EM64T. Prescott processors with a model number of 517, 524, 531, 541, 551, 561, or 571 also support EM64T.
Only if the processor has special 64-bit extensions, known as AMD64 or EM64T. Certain Pentium 4 processors, all Core 2 processors, and all AMD Athlon 64 processors have these extensions, and can thus run 64-bit operating systems and programs.
Intel offers Pentium Pro, Pentium II, Celeron, Pentium II Xeon, Pentium III, Pentium II and III Xeon, Celeron with Pentium III Based, Pentium 4, Pentium M, Intel Core, Dual Core Xeon LV, Intel Pentium Dual Core, Intel Core 2. Pentium Duo, Pentium Dual Core, Core 2 Quad, Intel Pentuim 2 Dual Core PrAMD processors include AMD Athlon, AMD Athlon 64, AMD Athlon X2, AMD Athlon Xp, AMD Duron, AMD Sempron, AMD Turion, MD Opteron and AMD Phenom 1.
Yes. The mobile versions of the Pentium Dual-Core, and Core2 Duo support 64-bit operating systems.
No. Xeon processors use different chipsets and sockets, thus they are not interchangeable with mainstream processors.
64 bits. The word size of Pentium processors is 32 bits. 64 bits and i have an intell
The Xeon with EM64T and Pentium 4 with EM64T processors
Modern Computers have a word size of 16, 32 or 64 bits.
The difference is in P4 the new technology "Hyper Threading" has been implemented, the number of pins has been increased and cache memory has been increased. ~ Pentium III is an 80686. Pentium 4 is an 80786. For Pentium 4, you have to find programs that are compiled for the Pentium 4 or else the performance will be low. All Intel processors use the ISA instruction set developed back in the early 80s. First it was an 8-bit instruction set. Then there was the 16-bit. Next came the 32-bit instruction set, and the processors since the 80386 use it. Each processor model designates with the 80x86 notation. Each model increase in features and sometimes performance. Now the x86 computer industry is advancing towards the 64-bit instruction set. 8086 = 8-bit, 80186 = 8-bit, 80286 = 16-bit, 80386 = 32-bit, 80486 = 32-bit, 80586 = 32-bit = Pentium, Pentium MMX, K5, K6, K6-II, K6-III 80686 = 32-bit = Pentium Pro, Pentium II, Pentium III, Athlon, Athlon XP, Opteron*, Athlon FX-51*, Athlon FX-53*, Athlon 64* 80786 = 32-bit = Pentium 4 * = 32-bit/64-bit If you have compiled a program for 686 architectures, only the processors equal to it or above it can execute it. If you have compiled a program with MMX/SSE/3DNOW instructions, processors that have it will be optimized and processors that do not have those instructions will not be optimized. ~ Speed.
The difference is in P4 the new technology "Hyper Threading" has been implemented, the number of pins has been increased and cache memory has been increased. ~ Pentium III is an 80686. Pentium 4 is an 80786. For Pentium 4, you have to find programs that are compiled for the Pentium 4 or else the performance will be low. All Intel processors use the ISA instruction set developed back in the early 80s. First it was an 8-bit instruction set. Then there was the 16-bit. Next came the 32-bit instruction set, and the processors since the 80386 use it. Each processor model designates with the 80x86 notation. Each model increase in features and sometimes performance. Now the x86 computer industry is advancing towards the 64-bit instruction set. 8086 = 8-bit, 80186 = 8-bit, 80286 = 16-bit, 80386 = 32-bit, 80486 = 32-bit, 80586 = 32-bit = Pentium, Pentium MMX, K5, K6, K6-II, K6-III 80686 = 32-bit = Pentium Pro, Pentium II, Pentium III, Athlon, Athlon XP, Opteron*, Athlon FX-51*, Athlon FX-53*, Athlon 64* 80786 = 32-bit = Pentium 4 * = 32-bit/64-bit If you have compiled a program for 686 architectures, only the processors equal to it or above it can execute it. If you have compiled a program with MMX/SSE/3DNOW instructions, processors that have it will be optimized and processors that do not have those instructions will not be optimized. ~ Speed.
The difference is in P4 the new technology "Hyper Threading" has been implemented, the number of pins has been increased and cache memory has been increased. ~ Pentium III is an 80686. Pentium 4 is an 80786. For Pentium 4, you have to find programs that are compiled for the Pentium 4 or else the performance will be low. All Intel processors use the ISA instruction set developed back in the early 80s. First it was an 8-bit instruction set. Then there was the 16-bit. Next came the 32-bit instruction set, and the processors since the 80386 use it. Each processor model designates with the 80x86 notation. Each model increase in features and sometimes performance. Now the x86 computer industry is advancing towards the 64-bit instruction set. 8086 = 8-bit, 80186 = 8-bit, 80286 = 16-bit, 80386 = 32-bit, 80486 = 32-bit, 80586 = 32-bit = Pentium, Pentium MMX, K5, K6, K6-II, K6-III 80686 = 32-bit = Pentium Pro, Pentium II, Pentium III, Athlon, Athlon XP, Opteron*, Athlon FX-51*, Athlon FX-53*, Athlon 64* 80786 = 32-bit = Pentium 4 * = 32-bit/64-bit If you have compiled a program for 686 architectures, only the processors equal to it or above it can execute it. If you have compiled a program with MMX/SSE/3DNOW instructions, processors that have it will be optimized and processors that do not have those instructions will not be optimized. ~ Speed.
Any AMD Athlon 64, Intel Core 2, or Core i7. Certain Pentium 4 revisions support 64-bit operation, all desktop Pentium Dual-Cores, and all AMD processors using socket AM2 or later.
x86 refers to any processor that is instruction-compatible with the Intel 8086 and higher. This includes the Pentium, Pentium II, Celeron, Pentium III, Pentium 4, Pentium D, Core Duo, Core 2 Duo, Core i7, Atom, AMD Athlon, Sempron, Athlon 64, Phenom, and Geode. x64 is often used to refer to any x86 processor that has 64-bit extensions (x86-64). These include the AMD Athlon 64, late models of the Pentium 4, Pentium D, Core 2 Duo, Phenom, and certain Geode processors. x32 is a retcon of the x64 term to apply to either 32-bit only processors or programs.