Department of Electrical and Computer Engineering

The University of Texas at Austin

EE 360N, Fall 2005
Lab Assignment 3
Due: Tuesday, October 11, 11:59 pm
Yale Patt, Instructor
Aater Suleman, Linda Bigelow, Jose Joao, Veynu Narasiman, TAs


For this assignment, you will write a cycle-level simulator for the LC-3b. The simulator will take two input files:

  1. A file entitled ucode which holds the control store.
  2. A file entitled isaprogram which is an assembled LC-3b program.
The simulator will execute the input LC-3b program, using the microcode to direct the simulation of the microsequencer, datapath, and memory components of the LC-3b.

Note: The file isaprogram is the output file from Lab Assignment 1. This file should consist of 4 hex characters per line. Each line of 4 hex characters should be prefixed with '0x'. For example, the instruction NOT R1, R6 would have been assembled to 1001001110111111. This instruction would be represented in the isaprogram file as 0x93BF. The file ucode is an ASCII file that consists of 64 rows and 35 columns of zeros and ones.

The simulator is partitioned into two main sections: the shell and the simulation routines. We are providing you with the shell. Your job is to write the simulation routines.

The Shell

The purpose of the shell is to provide the user with commands to control the execution of the simulator. In order to extract information from the simulator, a file named dumpsim will be created to hold information requested from the simulator. The shell supports the following commands:

  1. go - simulate the program until a HALT instruction is executed.
  2. run <n> - simulate the execution of the machine for n cycles
  3. mdump <low> <high> - dump the contents of memory, from location low to location high to the screen and the dump file. For hex addresses, put "0x" in front of the address, eg. mdump 0x3000 0x3001
  4. rdump - dump the current cycle count, the contents of R0-R7, IR, PC, MAR, MDR, and other status information to the screen and the dump file.
  5. ? - print out a list of all shell commands.
  6. quit - quit the shell
The Simulation Routines

The simulation routines carry out the cycle-by-cycle simulation of the input LC-3b program. The simulation of any cycle is based on the contents of the current latches in the system. The simulation consists of two concurrently executing phases:

The microsequencer phase uses 9 bits from the microinstruction register and appropriate literals from the datapath to determine the next microinstruction. Function eval_micro_sequencer evaluates this phase.

The datapath phase uses 26 bits of the microinstruction to manipulate the data in the datapath. Each microinstruction must be literally interpreted. For example, if the GateMDR bit is asserted, then data must go from the MDR onto the bus. You must also establish an order for events to occur during a machine cycle. For example, data should be gated onto the bus first, and loaded into a register at the end of the cycle. Simulate these events by writing the code for functions eval_bus_drivers, drive_bus and latch_datapath_values.

We will assume a memory operation takes five cycles to complete. That is, the ready bit is asserted at the end of the fourth cycle. Function cycle_memory emulates memory.

What To Do

The shell has been written for you. From your ECE LRC account, copy the following file to your work directory:

At present, the shell reads in the microcode and input program and initializes the machine. It is your responsibility to write the correct microcode file and to complete the simulation routines that simulate the activity of the LC-3b microarchitecture. In particular, you will be writing the five functions described above (eval_micro_sequencer, cycle_memory, eval_bus_drivers, drive_bus, and latch_datapath_values).

Add your code to the end of the shell code. Do not modify the shell code.

The accuracy of your simulator is your main priority. Specifically, make sure the correct microarchitectural structures sample the correct signals. It is your responsibility to verify that your simulator is working correctly. You should write programs using all of the LC-3b instructions and execute them one cycle at a time (run 1). You can use the rdump and mdump commands to verify that the state of the machine is updated correctly after the execution of each cycle.

Because we will be evaluating your code on linux, you must be sure your code compiles on an ECE linux machine (linux01 - using gcc with the -ansi flag. This means that you need to write your code in C such that it conforms to the ANSI C standard. You should also make sure that your code runs correctly on one of the ECE linux machines.

What To Turn In

Please submit your lab assignment electronically. You will submit the following files:

  1. lc3bsim3.c: adequately documented source code of your simulator.
  2. ucode3: your microcode file.


  1. Please make sure that you have made the following corrections to the handouts:

    In Appendix A, please correct the operation of the JSR/JSRR instruction to read:
    TEMP = PC;
    if (bit(11)==0)
         PC = BaseR;
         PC = PC + LSHF(SEXT(PCoffset11), 1);
    R7 = TEMP;

  2. LC-3b registers are 16 bits wide. However, when you perform arithmetic or bitwise operations in C on int data types on the Linux x86 machines you are using 32 bits. Therefore, you must be careful about not keeping the higher 16 bits of the results in the architectural state. The shell code includes a macro called Low16bits that you can use to avoid this problem.