143 Math CoProcessors 8

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Part	Manufacturer	Peripheral IC Type	Temperature Grade	Terminal Form	No. of Terminals	Package Code	Package Shape	Package Body Material	Surface Mount	Maximum Supply Voltage	Address Bus Width	Power Supplies (V)	Package Style (Meter)	Package Equivalence Code	Minimum Supply Voltage	Maximum Operating Temperature	Terminal Finish	Terminal Position	Boundary Scan	External Data Bus Width	Maximum Clock Frequency	Technology	Maximum Supply Current	Nominal Supply Voltage	Sub-Category	Terminal Pitch	JESD-30 Code	Qualification	JESD-609 Code
TMS390C602A-33GA	Texas Instruments	MATH PROCESSOR, COPROCESSOR	COMMERCIAL	PIN/PEG	143	PGA	SQUARE	CERAMIC	NO	5.25 V	32	5	GRID ARRAY	PGA143,15X15	4.75 V	70 Cel		PERPENDICULAR	YES	32	33 MHz	CMOS	1 mA	5 V	Math Processors	2.54 mm	S-XPGA-P143	Not Qualified
TMS390C602A-40GA	Texas Instruments	MATH PROCESSOR, COPROCESSOR	COMMERCIAL	PIN/PEG	143	PGA	SQUARE	CERAMIC	NO	5.25 V	32	5	GRID ARRAY	PGA143,15X15	4.75 V	70 Cel		PERPENDICULAR	YES	32	25 MHz	CMOS		5 V	Math Processors	2.54 mm	S-XPGA-P143	Not Qualified
L64814NC-25	Broadcom	MATH PROCESSOR, COPROCESSOR	COMMERCIAL	PIN/PEG	143	PGA	SQUARE	PLASTIC/EPOXY	NO	5.25 V	29	5	GRID ARRAY	PGA143,15X15	4.75 V	70 Cel	Tin/Lead (Sn/Pb)	PERPENDICULAR	NO	32	25 MHz	CMOS	210 mA	5 V	Math Processors	2.54 mm	S-PPGA-P143	Not Qualified	e0
L64814CG-25	Broadcom	MATH PROCESSOR, COPROCESSOR	COMMERCIAL	PIN/PEG	143	PGA	SQUARE	CERAMIC	NO	5.25 V	29	5	GRID ARRAY	PGA143,15X15	4.75 V	70 Cel	Tin/Lead (Sn/Pb)	PERPENDICULAR	NO	32	25 MHz	CMOS	210 mA	5 V	Math Processors	2.54 mm	S-XPGA-P143	Not Qualified	e0
L64814NC-33	Broadcom	MATH PROCESSOR, COPROCESSOR	COMMERCIAL	PIN/PEG	143	PGA	SQUARE	PLASTIC/EPOXY	NO	5.25 V	29	5	GRID ARRAY	PGA143,15X15	4.75 V	70 Cel	Tin/Lead (Sn/Pb)	PERPENDICULAR	NO	32	33 MHz	CMOS	300 mA	5 V	Math Processors	2.54 mm	S-PPGA-P143	Not Qualified	e0
L64814CG-40	Broadcom	MATH PROCESSOR, COPROCESSOR	COMMERCIAL	PIN/PEG	143	PGA	SQUARE	CERAMIC	NO	5.25 V	29	5	GRID ARRAY	PGA143,15X15	4.75 V	70 Cel	Tin/Lead (Sn/Pb)	PERPENDICULAR	NO	32	40 MHz	CMOS	380 mA	5 V	Math Processors	2.54 mm	S-XPGA-P143	Not Qualified	e0
L64814NC-40	Broadcom	MATH PROCESSOR, COPROCESSOR	COMMERCIAL	PIN/PEG	143	PGA	SQUARE	PLASTIC/EPOXY	NO	5.25 V	29	5	GRID ARRAY	PGA143,15X15	4.75 V	70 Cel	Tin/Lead (Sn/Pb)	PERPENDICULAR	NO	32	40 MHz	CMOS	380 mA	5 V	Math Processors	2.54 mm	S-PPGA-P143	Not Qualified	e0
L64814CG-33	Broadcom	MATH PROCESSOR, COPROCESSOR	COMMERCIAL	PIN/PEG	143	PGA	SQUARE	CERAMIC	NO	5.25 V	29	5	GRID ARRAY	PGA143,15X15	4.75 V	70 Cel	Tin/Lead (Sn/Pb)	PERPENDICULAR	NO	32	33 MHz	CMOS	300 mA	5 V	Math Processors	2.54 mm	S-XPGA-P143	Not Qualified	e0

Math CoProcessors

Math coprocessors, also known as floating-point units (FPUs), are specialized electronic circuits designed to perform mathematical operations on floating-point numbers. These circuits are often used in conjunction with the central processing unit (CPU) of a computer system to accelerate the processing of complex mathematical calculations.

Math coprocessors can perform a variety of mathematical operations, including addition, subtraction, multiplication, division, and transcendental functions such as sine, cosine, and logarithms. These operations are performed using specialized algorithms and hardware designed specifically for floating-point arithmetic.

Math coprocessors were first introduced in the 1980s as separate chips that could be added to a computer system. Later, they were integrated directly into the CPU, resulting in faster and more efficient processing of mathematical calculations. Today, most modern CPUs include integrated math coprocessors that support a wide range of mathematical operations.

Math coprocessors are used in a variety of applications that require complex mathematical calculations, including scientific research, engineering, and financial analysis. They are also used in video and graphics processing to perform complex calculations related to image rendering and manipulation.