硬件基础微程序控制器实验报告.doc

湖南大学HUNAN UNIVERSITY 硬件基础实验2 实验报告 1、 实验预习 1.书中的图形实现微程序控制器，中间的映射逻辑究竟是怎么实现的？ 答：但出现分支时，预设端信号由IR决定。IR为1时信号有效，输出为1. 通过IR的值映射为下址的低三位，从而产生下址。 2.书中设计用到了强写强读，为什么要设计这个功能？ 答：满足用户因为没有初始化mif文件时输入数据的需要。2、 实验目的 微程序控制器实验的主要任务：生成CPU里的控制信号，并使程序按正 确的顺序执行。核心部分是ROM，存放机器指令的微程序。 1、掌握微程序控制器的组成、工作原理； 2、掌握微程序控制器的基本概念和术语：微命令、微操作、微指令、微 程序等； 3、掌握微指令、微程序的设计及调试方法； 4、通过单步运行若干条微指令，深入理解微程序控制器的工作原理；二、实验电路 图1附：电路图过大，请放大观察详情三、实验原理 将机器指令的操作（从取指到执行）分解为若干个更基本的微操作序列，并将有 关的控制信息（微命令）以微码的形式编成微指令输入到控制存储器中。这样， 每条机器指令将与一段微程序对应，取出微指令就产生微命令，以实现机器指令 要求的信息传送与加工。四、实验步骤及概述 1)设计状态机部分 a、编写VHDL代码如下LIBRARY ieee;USE ieee.std_logic_1164.all;ENTITY zhuangtaiji IS PORT ( reset : IN STD_LOGIC := 0; clock : IN STD_LOGIC; qd : IN STD_LOGIC := 0; dp : IN STD_LOGIC := 0; tj : IN STD_LOGIC := 0; t1 : OUT STD_LOGIC; t2 : OUT STD_LOGIC; t3 : OUT STD_LOGIC; t4 : OUT STD_LOGIC );END zhuangtaiji;ARCHITECTURE BEHAVIOR OF zhuangtaiji IS TYPE type_fstate IS (idle,st1,s_st2,st4,st2,st3,s_st4,s_st3); SIGNAL fstate : type_fstate; SIGNAL reg_fstate : type_fstate;BEGIN PROCESS (clock,reset,reg_fstate) BEGIN IF (reset=1) THEN fstate = idle; ELSIF (clock=1 AND clockevent) THEN fstate = reg_fstate; END IF; END PROCESS; PROCESS (fstate,qd,dp,tj) BEGIN t1 = 0; t2 = 0; t3 = 0; t4 IF (NOT(qd = 1) THEN reg_fstate = st1; ELSE reg_fstate = idle; END IF; t1 = 0; t2 = 0; t3 = 0; t4 IF (tj = 1) AND NOT(dp = 1) THEN reg_fstate = st1; ELSIF (dp = 1) AND NOT(tj = 1) THEN reg_fstate = s_st2; ELSE reg_fstate = st2; END IF; t1 = 1; t2 = 0; t3 = 0; t4 IF (tj = 1) THEN reg_fstate = s_st2; ELSE reg_fstate = s_st3; END IF; t1 = 0; t2 = 1; t3 = 0; t4 IF (tj = 1) AND NOT(dp = 1) THEN reg_fstate = st4; ELSIF (dp = 1) AND NOT(tj = 1) THEN reg_fstate = idle; ELSE reg_fstate = st1; END IF; t1 = 0; t2 = 0; t3 = 0; t4 IF (tj = 1) AND NOT(dp = 1) THEN reg_fstate = st2; ELSIF (dp = 1) AND NOT(tj = 1) THEN reg_fstate = s_st3; ELSE reg_fstate = st3; END IF; t1 = 0; t2 = 1; t3 = 0; t4 IF (tj = 1) AND NOT(dp = 1) THEN reg_fstate = st3; ELSIF (dp = 1) AND NOT(tj = 1) THEN reg_fstate = s_st4; ELSE reg_fstate = st4; END IF; t1 = 0; t2 = 0; t3 = 1; t4 IF (tj = 1) THEN reg_fstate = s_st4; ELSE reg_fstate = idle; END IF; t1 = 0; t2 = 0; t3 = 0; t4 IF (tj = 1) THEN reg_fstate = s_st3; ELSE reg_fstate = s_st4; END IF; t1 = 0; t2 = 0; t3 = 1; t4 t1 = X; t2 = X; t3 = X; t4 = X; report Reach undefined state; END CASE; END PROCESS;END BEHAVIOR; b、新建block file选定zhaungtaiji得到电路图 2)设计rom部分 a、编写VHDL代码如下 LIBRARY ieee;USE ieee.std_logic_1164.all;ENTITY rom ISPORT( address : IN STD_LOGIC_VECTOR (4 DOWNTO 0); q : OUT STD_LOGIC_VECTOR (27 DOWNTO 0);END rom;ARCHITECTURE SYN OF rom ISSIGNAL sub_wire0 : STD_LOGIC_VECTOR (27 DOWNTO 0);BEGINsub_wire0=1011000000100000010100000001 WHEN address= 00000ELSE1110100100100000010101100010 WHEN address= 00001ELSE1001000100100000010100101000 WHEN address= 00010ELSE1110100100100000010100010101 WHEN address= 01001ELSE1001101100100000010100010110 WHEN address= 10101ELSE1001001100100000011100000001 WHEN address= 10110ELSE1110100100100000010100010111 WHEN address= 01010ELSE1001101100100000010100011000 WHEN address= 10111ELSE1001010100100000010000000001 WHEN address= 11000ELSE1110100100100000010100011001 WHEN address= 01011ELSE1001101100100000010100011010 WHEN address= 11001ELSE1001001100100000010100000001 WHEN address= 11010ELSE1001000101100000010000011011 WHEN address= 01100ELSE1001000100110000001100000001 WHEN address= 11011ELSE1110100100100000010100011100 WHEN address= 01101ELSE1011001100100000010100000001 WHEN address= 11100ELSE1110100100100000010100000011 WHEN address= 01110ELSE1001101100100000010100000100 WHEN address= 00011ELSE1001001100100000010110000101 WHEN address= 00100ELSE1001000101100000010000000110 WHEN address= 00101ELSE1001000100101001101100000001 WHEN address= 00110ELSE1110100100100000010100011101 WHEN address= 01111ELSE1001101100100000010100011110 WHEN address= 11101ELSE1001001100100000010110011111 WHEN address= 11110ELSE1001000101100000010000000111 WHEN address= 11111ELSE1001000100100001111100000001 WHEN address= 00111ELSE1011000000100000010100010011 WHEN address= 01000ELSE1110100100100000010100010100 WHEN address= 10011ELSE1001001100100000010100010011 WHEN address= 10100ELSE1011000000100000010100010001 WHEN address= 10000ELSE1110100100100000010100010010 WHEN address= 10001ELSE1001010000100000010100010001; q = sub_wire0(27 DOWNTO 0);END SYN; b、新建block file选定rom得到电路图 3)、整合电路图 整合电路图如图1所示。 建工程-建立BlockDiagramFile-按照电路图连好电路-保存、编译-建立 VectorWaveformFile-插入引脚-设置波形-保存、仿真。 仿真后的波形如下： 参数设置：Grid Size:50ns End Time:5.0us其具体实现还需要与数据通路结合才能最终进行具体运算。分析ADD的每条微指的指令格式和功能：ADD：为双字长指令。第一字为操作码，第二字为操作数地址，其含义是将R0寄存器的内容与内存中以A为地址单元的数相加，结果放R0寄存器中。ADD加法指令由 ：S3S2S1S0M CnWE A9 A8 A BC A5-A0 a、（PCAR ，PC+1）：000000011101101101000011b、（RAMBUS， BUSAR）：000000010101111111000100C、（RAMBUS ，BUSDR2）：000000010 010 111111 000101d、（RODR1）：000000011010001000000110e、（(DR1)+(DR2)RO）：100101011000001111000001 共8条微指令组成。a微指令功能是RAM赋给BUS，BUS赋给DR2; S3 S2 S1 S0 M CN 的值为“000000”代表进行自加1运算；A字段“110”代表选择LDAR操作，B字段“110”是选择PC-B操作；UA5-UA0中“000011”代表下一指令的地址为“011”。b微指令功能是RAM赋给BUS，BUS赋给DR2; S3 S2 S1 S0 M CN 的值为“000000”代表进行自加1运算；A字段“110”代表选择LDAR操作，B字段“000”是无选择操作；UA5-UA0中“000100”代表下一指令的地址为“100”。c微指令功能是RAM赋给BUS，BUS赋给DR2; S3 S2 S1 S0 M CN 的值为“00