High-speed and low-power DSPs have been developed for versatile hand set applications. The DSP contains a 16-bit fixed point DSP core with multiple buses, highly tuned instruction sets and a low-power architecture, featuring CPU power with 404.5 µ W/MHz, chip power with 2.08 mW/MHz at peak and 200 µA stand-by current and 160 MHz/160 MIPS performance by a single DSP core, and also operates at 0.68 V within the temperature range from -40C to 125C in the worst case (Weak corner) even using much higher I-off current process compared to a conventional process to obtain a faster operating frequency. In this paper, we discuss circuit design techniques to continue scaling down valuable IP cores keeping the same functionality, better speed performance, and lower power dissipation with much lower voltage operation capability. For further power reduction by DSP software, Run-time Power Control (RPC) has been demonstrated in an MP3 player using 100 MHz/100 MIPS DSP at 1.8 V, which is a real-time application running on an Internet audio evaluation module experimentally and we obtained 32-60% power reduction on various music source data.