Question: need help with this THE IEEE STANDARD FOR FLOATING-POINT (IEEE 754) A technical standard for floating-point computation established in 1985 by the Institute of Electrical
THE IEEE STANDARD FOR FLOATING-POINT (IEEE 754) A technical standard for floating-point computation established in 1985 by the Institute of Electrical and Electronics Engineers (IEEE). The standard addressed many problems found in the diverse floating-point implementations that made them difficult to use reliably and portably. Many hardware floating-point units now use the IEEE 754 standard. PHASE #1 - Description: Develop a plan to design and finally implement a set of functions using C++ that would implement the IEEE standard. Phase 1 will include the literature write up, description of the IEEE 754 floating and a complete description of the functions plan: 1. Functions type void, or any data returning function 2. Type of data passed in to the functions (function parameters or arguments) 3. Type of function parameters (value or reference). 4. Global variables if needed. 5. IEEE 754 single precision layout and its individual parts (sign, exponent, and mantissa) details. 6. The hexadecimal layout. 7. Hand work out a full example from A to Z. EXAMPLE RUN: PLEASE ENTER A NUMBER TO DISPLAY THE IEEE 754 FLOATING POINT OPTIONS -10.25 PLEASE CHOOSE ONE OF THE FOLLOWING OPERATIONS: 1. DISPLAY THE SIGN BIT VALUE 2. DISPLAY THE INTEGER PART IN BOTH BASE-10 AND BINARY FORMATS 3. DISPLAY THE DECIMAL PART IN BOTH BASE-10 AND BINARY FORMATS 4. DISPLAY THE NUMBER ENTERED IN BOTH BASE-10 AND BINARY FORMATS 5. DISPLAY THE MANTISSA IN BINARY FORMAT 6. DISPLAY THE EXPONENT IN BOTH BASE-10 AND BINARY FORMAT 7. DISPLAY THE IEEE 754 SINGLE PRECISION BINARY LAYOUT 8. DISPLAY THE IEEE 754 SINGLE PRECISION HEX LAYOUT SIGN BIT IS (1) SINCE THE NUMBER ENTERED IS NEGATIVE. PLEASE ENTER A NUMBER TO DISPLAY THE IEEE 754 FLOATING POINT OPTIONS -10.25 PLEASE CHOOSE ONE OF THE FOLLOWING OPERATIONS: 1. DISPLAY THE SIGN BIT VALUE 2. DISPLAY THE INTEGER PART IN BOTH BASE-10 AND BINARY FORMATS 3. DISPLAY THE DECIMAL PART IN BOTH BASE-10 AND BINARY FORMATS 4. DISPLAY THE NUMBER ENTERED IN BOTH BASE-10 AND BINARY FORMATS 5. DISPLAY THE MANTISSA IN BINARY FORMAT 6. DISPLAY THE EXPONENT IN BOTH BASE-10 AND BINARY FORMAT 7. DISPLAY THE IEEE 754 SINGLE PRECISION BINARY LAYOUT 8. DISPLAY THE IEEE 754 SINGLE PRECISION HEX LAYOUT PLEASE ENTER A NUMBER TO DISPLAY THE IEEE 754 FLOATING POINT OPTIONS -10.25 PLEASE CHOOSE ONE OF THE FOLLOWING OPERATIONS: 1. DISPLAY THE SIGN BIT VALUE 2. DISPLAY THE INTEGER PART IN BOTH BASE-10 AND BINARY FORMATS 3. DISPLAY THE DECIMAL PART IN BOTH BASE-10 AND BINARY FORMATS 4. DISPLAY THE NUMBER ENTERED IN BOTH BASE-10 AND BINARY FORMATS 5. DISPLAY THE MANTISSA IN BINARY FORMAT 6. DISPLAY THE EXPONENT IN BOTH BASE-10 AND BINARY FORMAT 7. DISPLAY THE IEEE 754 SINGLE PRECISION BINARY LAYOUT 8. DISPLAY THE IEEE 754 SINGLE PRECISION HEX LAYOUT 3: NUMBER (0.25 ) IN BASE-10 IS EQUAL TO (0100 0000 0000 0000 0000 0000 ) IN BINARY PLEASE ENTER A NUMBER TO DISPLAY THE IEEE 754 FLOATING POINT OPTIONS -10.25 PLEASE CHOOSE ONE OF THE FOLLOWING OPERATIONS: 1. DISPLAY THE SIGN BIT VALUE 2. DISPLAY THE INTEGER PART IN BOTH BASE-10 AND BINARY FORMATS 3. DISPLAY THE DECIMAL PART IN BOTH BASE-10 AND BINARY FORMATS 4. DISPLAY THE NUMBER ENTERED IN BOTH BASE-10 AND BINARY FORMATS 5. DISPLAY THE MANTISSA IN BINARY FORMAT 6. DISPLAY THE EXPONENT IN BOTH BASE-10 AND BINARY FORMAT 7. DISPLAY THE IEEE 754 SINGLE PRECISION BINARY LAYOUT 8. DISPLAY THE IEEE 754 SINGLE PRECISION HEX LAYOUT NUMBER (10.25 ) IN BASE-10 IS EQUAL TO ( 00001010. 010000000000000000000000) IN BINARY PLEASE ENTER A NUMBER TO DISPLAY THE IEEE 754 FLOATING POINT OPTIONS -10.25 PLEASE CHOOSE ONE OF THE FOLLOWING OPERATIONS: 1. DISPLAY THE SIGN BIT VALUE 2. DISPLAY THE INTEGER PART IN BOTH BASE-10 AND BINARY FORMATS 3. DISPLAY THE DECIMAL PART IN BOTH BASE-10 AND BINARY FORMATS 4. DISPLAY THE NUMBER ENTERED IN BOTH BASE-10 AND BINARY FORMATS 5. DISPLAY THE MANTISSA IN BINARY FORMAT 6. DISPLAY THE EXPONENT IN BOTH BASE-10 AND BINARY FORMAT 7. DISPLAY THE IEEE 754 SINGLE PRECISION BINARY LAYOUT 8. DISPLAY THE IEEE 754 SINGLE PRECISION HEX LAYOUT NUMBER ( 130 ) IN BASE-10 IS EQUAL TO ( 10000010 ) IN BINARY PLEASE ENTER A NUMBER TO DISPLAY THE IEEE 754 FLOATING POINT OPTIONS -10.25 PLEASE CHOOSE ONE OF THE FOLLOWING OPERATIONS: 1. DISPLAY THE SIGN BIT VALUE 2. DISPLAY THE INTEGER PART IN BOTH BASE-10 AND BINARY FORMATS 3. DISPLAY THE DECIMAL PART IN BOTH BASE-10 AND BINARY FORMATS DISPLAY THE NUMBER ENTERED IN BOTH BASE-10 AND BINARY FORMATS 5. DISPLAY THE MANTISSA IN BINARY FORMAT DISPLAY THE EXPONENT IN BOTH BASE-10 AND BINARY FORMAT 7. DISPLAY THE IEEE 754 SINGLE PRECISION BINARY LAYOUT 8. DISPLAY THE IEEE 754 SINGLE PRECISION HEX LAYOUT 4. 6. IEEE 754 BINARY LAYOUT ( 11000001 001001000000000000000000 ) IN BINARY PLEASE ENTER A NUMBER TO DISPLAY THE IEEE 754 FLOATING POINT OPTIONS -10.25 PLEASE CHOOSE ONE OF THE FOLLOWING OPERATIONS: 1. DISPLAY THE SIGN BIT VALUE 2. DISPLAY THE INTEGER PART IN BOTH BASE-10 AND BINARY FORMATS 3. DISPLAY THE DECIMAL PART IN BOTH BASE-10 AND BINARY FORMATS 4. DISPLAY THE NUMBER ENTERED IN BOTH BASE-10 AND BINARY FORMATS 5. DISPLAY THE MANTISSA IN BINARY FORMAT 6. DISPLAY THE EXPONENT IN BOTH BASE-10 AND BINARY FORMAT 7. DISPLAY THE IEEE 754 SINGLE PRECISION BINARY LAYOUT DISPLAY THE IEEE 754 SINGLE PRECISION HEX LAYOUT 8
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