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Or to better put it 128-bit will be the next generation ... 64-bit is happening right now.jamescv7 said:All I can say in a simple words that 64bit will be the next generations.
Jack said:Didn't watch the videos but this debate isn't really for the year 2011.
If you have more than 2GB of RAM and your PC can support 64bit..than x64 is the way to go. All the apps and programs support the x64 architecture and no developer will release a program without being 64bit ready.
And the only way you can enjoy a the full power of a modern computer is by using the 64bit architecture.A 64bit PC can handle larger amounts of information than a 32-bit system. Since it can use more RAM—4 GB and up—a 64-bit computer can be more responsive when you're running lots of programs at once.
32bit is history.
Lindows said:I used 32 bit OS previously and i am using 64 bit now so i haven't seen much of a difference......
Hungry Man said:we don't even have all of our programs at 64bit yet.
Hungry Man said:The 128bit rumor was silly. IT's not about hardware or software advancing it's about the difficulty of having to then write drivers for 128bit architecture. 64bit is perfectly fine for a long time - we don't even have all of our programs at 64bit yet.
128-bit
From Wikipedia, the free encyclopedia
(Redirected from 128 bit)
Processors
4-bit 8-bit 12-bit 16-bit 18-bit 24-bit 31-bit 32-bit 36-bit 48-bit 60-bit 64-bit 128-bit
Applications
16-bit 32-bit 64-bit
Data Sizes
nibble octet byte word dword qword
IEEE floating-point standard
Single precision floating-point format (32-bit) Double precision floating-point format (64 bit)
In computer architecture, 128-bit integers, memory addresses, or other data units are those that are at most 128 bits 16 octets wide. Also, 128-bit CPU and ALU architectures are those that are based on registers, address buses, or data buses of that size.
There are currently no mainstream general-purpose processors built to operate on 128-bit integers or addresses, though a number of processors do operate on 128-bit data. The IBM System/370 could be considered the first rudimentary 128-bit computer as it used 128-bit floating point registers. Most modern CPUs feature SIMD instruction sets (SSE, AltiVec etc.) where 128-bit vector registers are used to store several smaller numbers, such as four 32-bit floating-point numbers, and a single instruction can operate on all these values in parallel. However, these processors do not operate on individual numbers that are 128 binary digits in length, only their registers have the size of 128-bits.
The DEC VAX supported operations on 128-bit integer ('O' or octaword) and 128-bit floating-point ('H-float' or HFLOAT) datatypes. Support for such operations was an upgrade option rather than being a standard feature. Since the VAX's registers were 32-bits wide, a 128-bit operation used four consecutive registers or four longwords in memory.
[edit]Uses
128 bits is a common key size for symmetric ciphers in cryptography. It is also the size of Globally Unique Identifiers and IPv6 addresses.
128-bit processors could be used for addressing directly up to 2128 (over 3.40 × 1038) bytes, which would greatly exceed the total data stored on Earth as of 2010, which has been estimated to be around 1.2 zettabytes (over 270 bytes).[1]
Quadruple precision (128-bit) floating point numbers can store qword (64-bit) fixed point numbers or integers accurately without losing precision. Notice that since the 8087 (1980), x86 architecture supports 80-bit floating points that store and process 64-bit signed integers (-263...263-1) accurately.
The AS/400 virtual instruction set defines all pointers as 128-bit. This gets translated to the hardware's real instruction set as required, allowing the underlying hardware to change without needing to recompile the software. Past hardware was 32-bit CISC, while current hardware is 64-bit PowerPC. Because pointers are defined to be 128-bit, future hardware may be 128-bit without software incompatibility.
Increasing the word size can speed up multiple precision mathematical libraries. Applications include cryptography.
[edit]History
A 128-bit multicomparator was described by researchers in 1976.[2]
A CPU with 128-bit multimedia extensions was designed by researchers in 1999.[3]
[edit]
Jack said:Didn't watch the videos but this debate isn't really for the year 2011.
If you have more than 2GB of RAM and your PC can support 64bit..than x64 is the way to go. All the apps and programs support the x64 architecture and no developer will release a program without being 64bit ready.
And the only way you can enjoy the full power of a modern computer is by using the 64-bit architecture.A 64bit PC can handle larger amounts of information than a 32-bit system. Since it can use more RAM—4 GB and up—a 64-bit computer can be more responsive when you're running lots of programs at once.
32-bit is history.
BoXX28 said:I voted for 64-bit since it allows users to use more RAM than 32-bit users and that it is also much more secure than the 32-bit Counterpart.