2. A 2xl mux has two single-bit inputs and one selector bit (S). Such a mux allows you to choose ...
BIT MAXIMUM VALUE SELECTOR Consider a simple device that takes two 2-bit binary inputs representing two values ranging from zero to three. The 2-bit value A is represented by two input variables Al and A0. Values of Al and A0 will be used to encode numeric values (in binary) as described below. 2-bit values for the second 2-bit input B and the 2-bit output C are encoded similarly. The 2-bit output C of the de- vice will be the greater...
Task 1: One implementation of a multiplexer uses a decoder. Using Logic Circuit,create a new schematic, import one of the decoders created in a previous lab and create a logic dircuit that implements the truth table below Task 2: Create a logic circuit that can display two 4-bit digits on two 7-segment displays using a single 7- segment display decoder and 4 multiplexers. To do this you will use four switches to enter the first number, and a second set...
You want to design a MUX that will choose one multi-bit input from among 17 possible inputs. In other words, there will be 17 individual busses coming into the MUX. How many gates will your MUX need?
A specific type of bit-level manipulation consists in setting or clearing one single bit in a multi-bit value, given its index and its new value. This operation can be implemented in hardware by a BitSet circuit with the following interface: Input x is a 4-bit value representing the original value. Output y is a 4-bit value representing the modified value, after the bit-set operation. Input index is a 2-bit value, ranging from 0 to 3, indicating the index of the...
Can you use Multisim or something similar. I got the truth table
and design, but having a hard time with the actual wiring.
I need to see where each cable and light bulb go.
3.4. Multiplexer Multiplexers are very useful components in digital systems. They transfer a large number of information units over a smaller number of channels, (usually one channel) under the control of selection signals. Fig. 3 is a 4-line to l-line MUX. In this circuit, lo, 11, 12,...
Anyone want to be a class hero? Our entire class is stuck and
the professor isn't responsding (and its due soon). We can't figure
out how to connect our four outputs of the multiplexers to a single
four input decoder in a way that causes the two seven segment
displays to alternate (see instructions). I understand the idea is
that we set the clock to a very high frequency so it looks like
they are both on when they are...
Design a four-bit combinational circuit 2'scomplementer. (The output generates the 2's complement of the input binary number.) Construct a 5-to-32-line decoder with enable by using 3-to-8 and 2-to-4-line decoders with enables For the decimal-to-BCD encoder given in the text (Slide 33 of chapter 5), assume by error that the 6 input and the 3 input are both HIGH. What is the output code? Is it a valid BCD code? Construct a 16 times 1 multiplexer with 4 times 1 multiplexers....
please solve the question completely and show the steps ...
thumb up will be given
(5 points each) [CO: 6] a. If RO and R1 are both 16-bit serial shift registers, each with a single serial input (S_IN) and a single serial output (S_OUT), clock and reset. Design using RO and Rl additional logic, a circuit that would store the output S_OUT of either RO or Rl into a D-FF based on input CH. If CH is 0, S OUT...
PROBLEM STATEMENT The mini-calculator will use a small ALU to perform arithmetic operations on two 4-bit values which are set using switches. The ALU operations described below are implemented with an Adder/Subtractor component. A pushbutton input allows the current arithmetic result to be saved. An upgraded mini-calculator allows the saved value to be used in place of B as one of the operands. The small ALU that you will design will use the 4-bit adder myadder4 to do several possible...
Design a sequential system
that has one synchronous input bit stream x and one output z, with
the following functionality and also follows the design
constrains.
Design Specifications: Design a sequential system that has one synchronous input bit stream X and one output Z, with the following functionality 1) We look at every fourth-input-bit, while the other input bits are "don't cares". when three "consecutives" fourth-bits form the sequences 110 or 000 the system should output Z = 1, meaning...