RISC (Reduced Instuction Set Comput

RISC (Reduced Instuction Set Computer)Memory usage.The main focus of the series, bringing in just a few simple commands commands (typically no more than 128 commands, such as add, subtract, multiply, divide) comes together command 128. Is equal to 2 raised to 6 or 6-bit implementations, that is in charge of the command in the batch command set, so keep the FIX CODE 6 which only downside is if you use a command that uses storing 1-bit, 6-bit, it still causes the loss of retention, but because this is a RISC style CODE FIX, fast decoder, because the same routine every Record?Performance1. the work is done faster than CISC because it contains simple commands such as RISC LOAD/STORE used to load stored data in Regina Regina, Webster and Webster doing the processing, and then rarely stored in memory (typically, the computer sorts speed CPU REGISTER has the following MEMORY DISK).2. because the encryption routine is characterized by FIX-ENCODING so easy to crack.3. in the RISC architecture with many registers, allowing Torres to fast.4. use simple commands of this command takes some RISC (clock cycles) is less than 1, the clock runs fast.Compiler supportIn it there are approximately 128 RISC command command attached to a PC and allow the command type LOAD/STORE that data from memory to register directly with the registry, which makes the work faster. From this point on use of complex commands. May need to use the command in the active rather than RISC compiler because the main focus of the work RISC instruction set, but a simple, quick, no obscure commands, so therefore it is the duty of the cast, the compiler instead.

RISC (Reduced Instuction Set Computer)
using memory
on the principle of bringing the routine a few simple commands (generally not more than 128 commands, such as addition, subtraction, multiplication, division) assembled together 128 orders. is equal to the power of two or six, is said to use only six bits to store the value of the routine. To store commands, so it just FIX CODE 6, which was the downside is that if the user uses only one bit, it still holds six bits causes the loss. However, due to the retention of RISC is characterized FIX CODE As a result, fast decoding. Because instructions as well. Record
performance
1. The work will be done faster because CISC RISC include simple commands like LOAD / STORE used to load data stored in registers and for directly registered on the processing and then stored in the unit. memory (By the computer sorting speed. Has the following CPU REGISTER MEMORY DISK)
2. Because instructions are encoded FIX-ENCODING look so easy to decipher
3. RISC architecture has registered on many makes quick work by
four. using a simple statement of RISC, some orders take (clock cycles) than one clock cycle, resulting in faster
support of compilers
in RISC has ordered about 128 orders attached. the CPU And allow the type LOAD / STORE data from the memory to the St. Regis directly. This makes the work faster. From the point of use on the part of the complex. May need to use the built-in compiler to use than because RISC RISC instruction set on the Functioning of the simple but fast, so order more difficult. Threw it to the compiler instead.

RISC (Reduced Instuction Set Computer).The use of memory.On the principle of using the algorithm just a few easy command (generally no more than 128 orders, such as addition, subtraction, and multiplication) incorporated together 128 orders. Equals 2 power 6 or the work just 6 bits to the value of the algorithm in order to set the FIX CODE just 6 only. The disadvantage is that if the command using just 1 bit still keep 6 bit caused the loss, but because of the data. This is the RISC FIX CODE so as to decode algorithm rate all fast because Record.Efficiency.1. Work would be much faster than CISC because RISC consists of a simple command, such as LOAD / STORE used to load the data stored in the register and direct register data processing and then stored in the memory. (generally a computer work sort speed has the following CPU REGISTER MEMORY DISK).Encryption algorithm is characterized 2. Due to FIX-ENCODING is easy to decipher.3. In architecture RISC have many registers the overall work quickly.4. Use a simple command of RISC. Some order take (the) less than a clock cycle clock 1, resulting in the working time.The support of the compiler.In order RISC is about 128 orders, attached to the CPU, and allow the order type LOAD / STORE ที่นำ data from memory to register directly. The work quickly. From this point it in use in parts of the complex. May need to use a command in the compiler to use more than RISC because RISC focuses on the working principle of a simple instruction set, but quickly. Therefore orders difficult. The function of the cast to compiler instead.