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ADSP-2111数字信号处理器原理与应用指南PDF|Epub|txt|kindle电子书版本网盘下载
- 赵永昌,陈希清,周学广,郭建军 著
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- ISBN:
- 出版时间:未知
- 标注页数:284页
- 文件大小:17MB
- 文件页数:292页
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图书目录
附录D控制/状态寄存器··············(D-1
附录A指令编码····················(A-1
A.1 指令编码····················(A-1
附录B除法特例····················(B-1
B.1 基本除法····················(B-1
B.1.1 带符号除法·················(B-1
B.1.2 无符号数除法················(B-1
附录C 引脚说明···················· (C-1
C.1 引脚说明·················· (C-1
目录1
D·1 引言······················(D-1
附录E ADSP-2111的技术条件········(E-1
1.推荐工作条件··················(E-1
2.电参数特性···················(E-1
1.1.1体系结构综述··················1
1.1概述·······················1
第一章引言························1
B.2.1 负除数误差分析···············(B-2
B.2误差情况分析··················(B-2
B.1.4 整数除法··················(B-2
B.1.3输出格式··················(B-2
3.最大额定值·····················(E-2
4.时间参数····················(E-2
11.3.3.3
1.2 内部体系结构··.··················3
1.2.1 运算单元····················3
C.2 引脚配置····················(C-3
B.3软件解决方法··················(B-3
B.2.2无符号数除法误差分析·············(B-3
1.1.2指令系统····················3
1.2.2地址发生器和程序定序器·············4
1.2.3定时器·····················4
1.2.4主机接口····················4
1.2.5 串行口·····················4
1.2.6 总线······················5
1.3 ADSP-2111开发系统·············5
1.4 手册的编排·····················6
A.2简化码·····················(A-6
2.1.3 带符号数:二进制补码··············8
2.1.2 无符号数····················8
2.1.1 二进制串····················8
2.1.4小数表示: 1.15格式·············8
第二章计算单元······················8
2.1.5 ALU运算···················8
2.1 ADSP-2111的算术单元············8
2.1.8 小结······················9
2.1.7移位器运算···················9
2.1.6 MAC运算···················9
2.2.1 ALU方框图介绍···············11
2.2 算术/逻辑单元(ALU)···········11
2.2.2常规运算功能·················12
2.2.3 ALU输入/输出寄存器············13
2.2.4 双精度能力··················13
2.2.5 ALU饱和方式················13
2.2.6 ALU溢出锁存方式··············14
2.2.7 除法·····················14
2.3.1 MAC方框图介绍···············17
2.2.8 ALU状态··················17
2.3 乘法/累加器(MAC)············17
2.3.2 MAC操作··················18
2.3.2.1常规功能·················18
2.3.2.2 输入格式·················20
2.3.2.3 MAC输入/输出寄存器··········21
2.3.2.4 MR寄存器操作··············22
2.3.2.5 MAC溢出和饱和·············22
2.3.2.6 舍入方式·················22
2.4桶形移位器···················23
2.4.1 移位器方框图介绍···············25
2.4.2 移位器操作················28
2.4.2.2 导出块指数················28
2.4.2.1 移位器输入/输出寄存器··········28
2.4.2.3立即移位 ·······29
2.4.2.4 解归一化·················30
2.4.2.5 归一化··················31
3.1引言···················35
3.2 数据地址发生器(DAG)·············35
第三章数据传送·····················35
3.2.1 DAG方框图介绍G)·············35
3.2.2 模寻址····················36
3.2.3.2 循环缓冲器基地址示例2··········37
3.2.3.3 循环缓冲器运行示例1···········37
3.2.3.1 循环缓冲器基地址示例1··········37
3.2.3计算基址地址·················37
3.3 PMD-DMD总线交换单元············38
3.2.5位倒序寻址··················38
3.2.4串行口····················38
3.2.3.4 特环缓冲器运行示例2···········38
3.3.1PMD-DMD方框图介绍··········39
4.2.1 下一地址选择逻辑···············41
4.2 程序定序器···················41
4.1 引言·······················41
第四章程序控制·····················41
4.2.2程序计数器和堆栈···············43
4.2.3 减数计数器和堆栈···············43
4.2.4 循环比较器和堆栈···············44
4.3 中断控制器····················46
4.3.1 配置中断···················46
4.3.1.2 中断屏蔽寄存器(MASK)········47
4.3.1.1 中断控制控制寄存器(ICNTL)·····47
4.3.1.3 中断屏蔽寄存器中的HIP中断(HMASK) ·49
4.3.1.4 中断强制/清零寄存器···········49
4.3.2 中断控制操作···············50
4.4状态寄存器和堆栈·················51
4.4.2 堆栈状态寄存器(SSTAT)·········52
4.4.1 算术状态寄存器(ASTAT)·········52
4.4.3 模式状态寄存器(MSTAT)·········53
4.5 IDLE·····················54
4.6 条件逻辑·····················54
第五章定时器······················56
5.1 概述·······················56
5.2定时器的体系结构·················56
5.3 分辩率······················57
5.4 实例························57
5.5 小结·······················58
第六章主机接口端口···················59
6.1概述·····················59
6.2 HIP引脚简介················59
6.3 HIP功能描述··············62
6.4 HIP的运行···················62
6.4.1 查询运行···················63
6.4.1.1 HIP状态同步···············63
6.4.2 中断驱动操作·················65
6.4.3 HDR重新写入方式··············65
6.4.4软件复位·················65
6.5 HIP中断·················66
6.6主机接口定时···················67
6.7 通过HIP引导装入程序··············70
第七章串行口······················73
7.1 概述·······················73
7.1.1 串行口的基本特性···············73
7.2串行时钟···················74
7.3帧选择····················75
7.3.2 外部或内部帧同步:IRFS/ITFS·····76
7.3.1 帧同步:RFSR/TFSR··········76
7.3.3 常规帧方式和配置帧方式:RFSW/TFSW··77
7.4 串字长:SLEN·················78
7.3.4 高/低检测有效:INVRFS/INVTFS··78
7.5 波形举例·····················79
7.6.2 压扩和数据格式:DTYPE··········83
7.6 数据寄存器和压扩·················83
7.6.1 简单操作举例·················83
7.6.2.1 压扩内部数据···············84
7.6.4 压扩硬件的争用················85
7.6.3 压扩操作举例·················85
7.7 中蚕与自动缓冲··················85
7.7.1 自动缓冲操作·················86
7.7.2 自动缓冲控制寄存器··············87
7.8 多通道操作····················87
7.8.1 多通道建立··················87
7.8.2 多通道操作··················88
7.9 串行器允许和配置················90
7.10 串行口硬件接口·················91
第八章系统接口·····················94
8.1 引言·······················94
8.2时钟信号 ··················94
8.2.2 对时钟的考虑·················96
8.2.1 同步延迟···················96
8.3复位···················98
8.4 中断·······················98
8.4.1触发性··················98
8.5标志····················99
第九章存储器接口···················100
9.1 引言······················100
9.2 引导程序存储器接口···············101
9.2.1 引导页面··················101
9.2.2 热启动和软件重启动·············102
9.2.3 引导存储器访问···············103
9.2.4 引导装入程序················103
9.3.1 程序存储器读/写··············105
9.3 程序存储器接口·················105
9.3.2程序存储器映象···············108
9.4数据存储器接口·················108
9.4.1数据存储器读/写··············109
9.4.2数据存储器映象···············109
9.4.3 并行外部设备和存储器映象外部设备······110
9.5 总线请求/响应·················110
9.6 存储器接口小结·················111
第十章指令系统综述··············111
10.1 引言·····················113
10.2 指令类型···················114
10.2.1 多功能指令················114
10.2.1.1 具有数据和程序存储器读的ALU/MAC操作114
·····················114
10.2.1.2数据和程序存储器读··········115
10.2.1.3 具有存储器读的计算··········115
10.2.1.4 具有存储器写的计算··········116
10.2.1.5 具有数据传送的计算······116
10.2.2 ALU、MAC和移位器指令········117
10.2.2.1 ALU指令组·············117
10.2.2.2 MAC指令组·············120
10.2.2.3移位器指令组·············121
10.2.3数据传输:读和写·············122
10.3.3端口和存储器映象·············123
10.4程序举例···················123
10.2.4程序流控制················124
10.2.5 其它指令·················125
10.3数据结构···················126
10.3.1数组···················126
10.3.2循环数组/缓冲··············127
10.4.1程序举例:建立程序讨论··········130
10.4.2程序举例:中断程序讨论··········131
10·5指令集说明··················132
10.5.1概述··················132
10·5·2 间接线性(非循环)寻址··········133
10·5·3周期说明·················134
10·5·3·1 ADSP-2111附加周期条件····134
10·5·4指令语法说明···············135
10·5·4·1 标点和多功能指令···········135
10·5·4·2语法符号举例·············136
10·5·4·3状态标志···············136
10·5·4·4指令字说明··············136
10·5·5各类指令的逐条说明············137
10·5·5·1 算术逻辑单元指令组··········137
10·5·5·3 移位指令组··············157
10·5·5·2 乘法/累加运算指令组·········160
10·5·5·4传送指令组··············166
10·5·5·5 程序流向指令组············174
10·5·5·6 其他指令···············182
10·5·5·7 多功能指令组·············186
第十一章ADSP-2111数字信号处理器的应用举例··196
11·1 引言·····················196
11·2选择DSP处理器的考虑············196
11·2·1 对DSP处理器的总体要求·········196
11·2·2 运算能力的比较··············197
11·2·3 数据寻址能力的比较············197
11·2·4 程序顺序能力的比较············198
11·2·5 与TMS320C30的简要比较······199
11·2·6 选择DSP处理器小结···········200
11·3 ADSP-2111与TMS320C50的比较·200
11·3·1 运算能力的比较··············201
11·3·2 数据寻址能力的比较············206
11·3·3 程序定序能力的比较············210
11·3·4 I/O操作能力的比较···········215
11·3·5 总结···················216
11.4 ADSP-2111的应用范图·········219
11.4.1 ADSP-2111的主要特性·······219
11.4.2 典型的应用················220
11.4.3应用举例·················221
11.4.3.1 FIR数字语音滤波器原理及设计····221
11.4.3.2 ADSP-2111串行口模拟举例···232