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Snapdragon 828 MSM8997 Architecture

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Architecture gives the complete structural details of the SoC. It includes memory, power requirements, size etc. Architecture </>
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The physical connection between the SoC and external components. Socket
Not Available
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Either Reduced Instruction Set or Complex Instruction Set architecture is used. Platform
RISC
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A unique name assigned for identification and is easy to remember for consumers. Code Name
Kyro 200
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The power consumed by the processor. This factor greatly affects the performance. Power
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The temperature at which Snapdragon 828 MSM8997 should ideally operate. Operating Temperatures
0
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Type of package matters as it directly affects the power dissipation. Package
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The dimensional details of Snapdragon 828 MSM8997. Size
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It describes the size of the semiconductors used to build the chip. Lithography
10 nm
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1
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The height and width of the SoC. Dimensions
Not Available
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It refers to the number of bits used to encode data. Data Bus
64 bit
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Based on architecture it can be determined whether the processor is capable of processing complex signals. CPU Architecture
ARM
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It is the instruction set architecture supported by Snapdragon 828 MSM8997. ISA Supported
Not Available

Architecture of Snapdragon 828 MSM8997

The architecture of Snapdragon 828 MSM8997 describes the number of components, type of each component and connections among the components. All digital systems including the system on chip use either Harvard Architecture or Von Neumann Architecture. Furthermore they can be classified as having Reduced Instruction Set (RISC) or Complex Instruction Set (CISC). Snapdragon 828 MSM8997 Architecture is RISC. ARM, which is Advanced RISC Machine is the technology that runs the current generation of mobiles and tablets and is extensively used in SoCs. This is the preferred architecture as it insures high performance at low power thus forming the perfect combination that all buyers usually wish for.

Snapdragon 828 MSM8997 Size

Snapdragon 828 MSM8997 size can define the packaging requirements and is usually an indicator of the type of packaging used.The feature size is . type of socket. Architecture also includes the number of bits, word length that can be handled by the instruction set or processor unit. Data bus for Snapdragon 828 MSM8997 consists of 64 bit.

Snapdragon 828 MSM8997 Power Consumption

As semiconductor technologies have advanced, they have enabled designers to pack millions of gates and complex mixed-signal components onto a single chip. Now a stage has been reached, where designers need to make a smart trade-off between the SoC's functionality and it's power consumption. Designers today face an onerous task of limiting the power consumption in the SoC design. Various features have to be infused in Snapdragon 828 MSM8997 to make the design as compact as possible. Snapdragon 828 MSM8997 architecture is a complex structure that satisfies the processor requirements, memory and comprehends algorithms. Power consumption is an essential aspect of the architectural design of the system on chip.Power consumed by Snapdragon 828 MSM8997 is .

Snapdragon 828 MSM8997 Power Consumption

Snapdragon 828 MSM8997 power consumption can be affected by a few major factors. The first of these is the overall gate count and the chip size. The more gates that are used in a chip, more is the power consumed. Another factor that has a significant impact on the power consumption of an SoC is the type of process and transistors that are used in the design.Snapdragon 828 MSM8997 TDP which is is the maximum amount of heat generated by the CPU that the cooling system in a computer is required to dissipate. However, the power consumption affects the operating temperature of the SoC i.e for Snapdragon 828 MSM8997.