Programming Sheets

Application:

 

 

Date:

 

 

 

 

 

 

 

 

Programmer:

 

Sheet 8 of 10

Host Processor (HI32)

Header Type, Bits 23–16

Read-only; hardwired to $00 Modes: PCI only

Latency Timer (High), Bits 15–8

PCI: Specifies the latency timer in PCI bus cycles

UBM: Specifies duration of HIRQ pulse

Modes: UBM and PCI

Cache Line Size, Bits 7–0

CCLS Register

Specifies cache line size (32-bit words) Modes: UBM and PCI

31 30 29 28

27 26 25 24

23 22 21 20

19 18 17 16

15 14 13 12

11 10

9

8

 

7

 

6

5

4

 

3

2

 

1

0

 

 

 

 

*0

*0

*0

*0

*0

*0

*0

*0

0

0

0

0

0

0

0

0

LT7

LT6

LT5

LT4

LT3

LT2

LT1

LT0

 

CLS7

CLS6

CLS5

CLS4

 

CLS3

CLS2

CLS1

CLS0

 

 

 

 

 

 

 

 

HT7

HT6

HT5

HT4

HT3

HT2

HT1

HT0

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

HI32 Header Type/Latency Timer Configuration Register (CHTY/CLAT/CCLS)

 

 

Read/Write

 

 

Reset = $00000000

* = Reserved, Program as 0

Figure B-17.Header Type/Latency Timer Configuration Register (CHTY/CLAT/CCLS)

Programming Reference

B-29

Page 341
Image 341
Motorola DSP56301 user manual Read/Write, Header Type, Bits, Latency Timer High, Bits, Cache Line Size, Bits

DSP56301 specifications

The Motorola DSP56301 is a highly efficient digital signal processor, specifically engineered for real-time audio and speech processing applications. This DSP is part of Motorola's renowned DSP56300 family, which is recognized for its innovative features and outstanding performance in the realm of digital signal processing.

One of the main features of the DSP56301 is its ability to handle complex computations at high speeds. With a maximum clock frequency of 66 MHz, it delivers fast performance, enabling it to process audio signals in real time. The chip is built on a 24-bit architecture, which allows for high-resolution audio processing. This is particularly beneficial in applications such as telecommunications, consumer audio devices, and professional audio equipment, where precision is paramount.

The DSP56301 boasts a comprehensive instruction set that includes efficient mathematical operations, which are essential for digital filters and audio effects processing. One of the key innovations of this device is its dual data path architecture, which permits simultaneous processing of multiple data streams. This feature significantly enhances the device's throughput and responsiveness, making it suitable for demanding applications such as voice recognition and synthesis.

In terms of memory regions, the DSP56301 includes several on-chip memory categories, such as program memory, data memory, and a specialized memory for coefficients. The architecture's support for external memory expansion further increases its versatility, allowing designers to tailor systems to their specific requirements.

The DSP56301 implements advanced features such as a powerful on-chip hardware multiplier and accumulator, simplifying complex mathematical tasks and accelerating the execution of algorithms. Its flexible interrupt system enhances its capability to respond to time-sensitive operations, while the integrated serial ports facilitate efficient data communication with external devices.

Power consumption is also a vital characteristic of the DSP56301. It is designed with energy efficiency in mind, allowing for extended operation in battery-powered devices. The chip’s low power requirements are particularly advantageous in portable audio devices and other applications where energy conservation is crucial.

In conclusion, the Motorola DSP56301 is an exceptional digital signal processor that combines high processing power, flexibility, and efficiency. Its main features, advanced technologies, and robust architecture make it a top choice for developers seeking to create sophisticated audio and signal processing systems. With its enduring legacy in the industry, the DSP56301 continues to be relevant in a variety of modern applications, ensuring it remains a valuable tool for engineers and designers.