SIGNATURE FILES FOR DOCUMENT MANAGEMENT

ABEYSINGHE, RUVINI PRADEEPA

11 October 2001

No description available.

Computer Science

SIGNATURE FILES

TEXT RETRIEVAL METHODS

INDEXING

DOCUMENT MANAGEMENT SYSTEM

PSEUDO RANDOM NUMBER GENERATION

Turbo Code Performance Analysis Using Hardware Acceleration

Nordmark, Oskar

January 2016

The upcoming 5G mobile communications system promises to enable use cases requiring ultra-reliable and low latency communications. Researchers therefore require more detailed information about aspects such as channel coding performance at very low block error rates. The simulations needed to obtain such results are very time consuming and this poses achallenge to studying the problem. This thesis investigates the use of hardware acceleration for performing fast simulations of turbo code performance. Special interest is taken in investigating different methods for generating normally distributed noise based on pseudorandom number generator algorithms executed in DSP:s. A comparison is also done regarding how well different simulator program structures utilize the hardware. Results show that even a simple program for utilizing parallel DSP:s can achieve good usage of hardware accelerators and enable fast simulations. It is also shown that for the studied process the bottleneck is the conversion of hard bits to soft bits with addition of normally distributed noise. It is indicated that methods for noise generation which do not adhere to a true normal distribution can further speed up this process and yet yield simulation quality comparable to methods adhering to a true Gaussian distribution. Overall, it is show that the proposed use of hardware acceleration in combination with the DSP software simulator program can in a reasonable time frame generate results for turbo code performance at block error rates as low as 10−9.

Turbo code

hardware acceleration

digital signal processors

DSP

simulation

block error rate

BLER

pseudo random number generation

PRNG

5G

Elektroteknik och elektronik