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Real-time & Performance

Techniques for deterministic systems and tips for increasing performance.

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High-performance embedded computing -- Dynamic voltage and frequency scaling

How dynamic voltage and frequency scaling can reduce power consumption by dynamically adjusting voltage and frequency of a CPU. Read More

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High-performance embedded computing -- Power and energy consumption

Because controlling power dissipation is critical in most embedded systems, developers need to be aware of factors that can impact power consumption Read More

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High-performance embedded computing -- Performance

Embedded systems developers must consider a wide range of options to optimize performance and meet nonfunctional requirements such as execution time, Read More

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High-performance embedded computing -- Hardware accelerators

Used to boost performance, hardware accelerators appear in many forms. In this installment, the authors look at accelerators based on GPUs and FPGAs. Read More

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High-performance embedded computing -- Core-based enhancements

To deliver higher performance required in many embedded systems, semiconductor manufacturers have applied diverse architectural enhancements to CPU Read More

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High-performance embedded computing -- Multiprocessor and multicore architectures

Increased performance is a common theme among the diverse requirements for embedded systems. To optimize performance, developers can draw on a Read More

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High-performance embedded computing -- Target architectures

Among diverse requirements facing embedded systems developers, the need for increased performance is a common theme. This article begins a series Read More

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Reliable systems for micro aerial vehicles -- Adaptive clocking and future work

Insect-size aerial vehicles can provide critical services for reconnaissance, hazardous environment exploration, and search-and-rescue, but present a Read More

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Reliable systems for micro aerial vehicles -- SoC evaluation

Insect-size aerial vehicles can provide critical services for reconnaissance, hazardous environment exploration, and search-and-rescue, but present a Read More

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Reliable systems for micro aerial vehicles -- System implementation

Insect-size aerial vehicles require a minimalist approach to avoid unnecessary weight and power requirements. Building around a specialized SoC, the Read More

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Reliable systems for micro aerial vehicles -- Supply resilience

With their tight weight budget, Insect-size aerial vehicles can afford few extra components, relying on integrated DC converters for their supplies. Read More

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Reliable systems for micro aerial vehicles -- SoC control solution

Insect-size aerial vehicles can provide critical services for reconnaissance, hazardous environment exploration, and search-and-rescue, but present a Read More

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Reliable systems for micro aerial vehicles -- Design approach

Insect-size aerial vehicles can provide critical services for reconnaissance, hazardous environment exploration, and search-and-rescue, but present a Read More

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Reliable systems for micro aerial vehicles -- MAV challenges

Insect-size aerial vehicles can provide critical services for reconnaissance, hazardous environment exploration, and search-and-rescue, but present a Read More

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Reliable and power-aware architectures: Measurement and modeling

Harsh environmental conditions exacerbate already problematic chip power and thermal issues, and can jeopardize the operation of any conventional Read More

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Reliable and power-aware architectures: Microbenchmark generation

Harsh environmental conditions exacerbate already problematic chip power and thermal issues, and can jeopardize the operation of any conventional Read More

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A Guide to Ball Grid Arrays

Save & Follow 09 February 2018

Ball grid arrays (BGAs) leave a considerably... Read More

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