Keywords: absolute addressing, accumulators, addressing modes, data pointer, direct addressing, dmad, DP, DSP, dst, immediate addressing, indirect addressing, K, #k3, #k5, #k9, labels, #lk, memory-mapped registers, MMR, MMRx, MMRy, pmad, Smem, SP, src, stack pointer, Xmem, Ymem

Summary: The TI TMS320C55x microprocessor provides a number of ways to specify the location of data to be used in calculations. Immediate addressing, direct addressing, and indirect addressing are the three main types. Knowing the basic addressing modes of a microprocessor is important because they map directly into assembly language syntax ... given task. [Expand Summary] The TI TMS320C55x microprocessor provides a number of ways to specify the location of data to be used in calculations. Immediate addressing, direct addressing, and indirect addressing are the three main types. Knowing the basic addressing modes of a microprocessor is important because they map directly into assembly language syntax and because the need to use a particular addressing mode often dictates which instruction one picks for a given task. [Collapse Summary]

Keywords: audio effects, delay, DSP, echo, external memory, memory map

Summary: You will implement three audio effects: a fixed-length delay, a variable-length delay, and a feedback-echo. All require storing many samples in external memory.

Keywords: anti-aliasing filter, anti-imaging filter, Code Composer Studio, DSP, FIR filter, function generator, MATLAB, oscilliscope, test vector, TMS320C54x

Summary: This exercise introduces the hardware and software used in the course. By the end of this module, you should be comfortable with the basics of testing a simple real-time DSP system with Code Composer Studio, the debugging environment we will be using throughout the semester. First you will connect ... DSP's output. [Expand Summary] This exercise introduces the hardware and software used in the course. By the end of this module, you should be comfortable with the basics of testing a simple real-time DSP system with Code Composer Studio, the debugging environment we will be using throughout the semester. First you will connect the laboratory equipment and test a real-time DSP system with provided code to implement an eight-tap (eight coefficient) finite impulse response (FIR) filter. With a working system available, you will then begin to explore the debugging software used for downloading, modifying, and testing your code. Finally, you will create a filter in MATLAB and use test vectors to verify the DSP's output. [Collapse Summary]

Keywords: anti-aliasing filter, anti-imaging filter, Code Composer Studio, DSP, FIR filter, function generator, MATLAB, oscilliscope, test vector, TMS320C54x

Summary: This exercise introduces the hardware and software used in the course. By the end of this module, you should be comfortable with the basics of testing a simple real-time DSP system with Code Composer Studio, the debugging environment we will be using throughout the semester. First you will connect ... DSP's output. [Expand Summary] This exercise introduces the hardware and software used in the course. By the end of this module, you should be comfortable with the basics of testing a simple real-time DSP system with Code Composer Studio, the debugging environment we will be using throughout the semester. First you will connect the laboratory equipment and test a real-time DSP system with provided code to implement an eight-tap (eight coefficient) finite impulse response (FIR) filter. With a working system available, you will then begin to explore the debugging software used for downloading, modifying, and testing your code. Finally, you will create a filter in MATLAB and use test vectors to verify the DSP's output. [Collapse Summary]

Keywords: assembly, DSP, fractional arithmetic, hexadecimal, mac, rptz, stl, two's-compliment

Summary: You will work through a section of TI TMS320C54x assembly code by hand. The instructions include multiplication of fractional numbers in two's complement representation.