Embedded software developers face unique challenges when dealing with timing and interference issues on heterogeneous multicore processor (MCP) based systems. Such systems offer higher CPU workload capacity and performance than single core processor (SCP) setups, but their complexity can make strict timing requirements extremely difficult to meet.
In hard real-time systems, deterministic execution is crucial for meeting operational and safety goals. Although MCP-based systems generally exhibit lower average execution times for a given set of tasks than do SCP systems, the distribution of these times is more variable.
This makes it difficult for developers to ensure precise timing for tasks, creating significant problems when they are building applications where meeting the worst execution times for individual tasks is more critical than meeting goals for average times.
To address such challenges, embedded software developers can turn to guidance documents like CAST-32A, AMC 20-193, and AC 20-193. In CAST-32A, the Certification Authorities Software Team (CAST) outlines important considerations for MCP timing and sets Software Development Life Cycle (SDLC) objectives for a better understanding of the behavior of a multicore system. While not prescriptive requirements, these objectives guide and support developers toward adhering to widely accepted standards like DO-178C.
In Europe, the AMC 20-193 document has superseded and replaced CAST-32A, and in the U.S., the AC 20-193 document has done the same. These successor documents, collectively referred to as A(M)C 20-193, largely duplicate the principles outlined in CAST-32A.
To apply the guidance from A(M)C 20-193, developers can employ various techniques for measuring timing and interference on MCPbased systems.
WORST-CASE EXECUTION TIMING
この記事は Circuit Cellar の August 2024 版に掲載されています。
7 日間の Magzter GOLD 無料トライアルを開始して、何千もの厳選されたプレミアム ストーリー、9,000 以上の雑誌や新聞にアクセスしてください。
すでに購読者です ? サインイン
この記事は Circuit Cellar の August 2024 版に掲載されています。
7 日間の Magzter GOLD 無料トライアルを開始して、何千もの厳選されたプレミアム ストーリー、9,000 以上の雑誌や新聞にアクセスしてください。
すでに購読者です? サインイン
New TI MCUs Enable Edge AI and Industry-Leading Real-Time Control to Advance Efficiency, Safety, and Sustainability
Texas Instruments (TI) introduced two new series of real-time microcontrollers that deliver advancements to help engineers achieve more intelligent and secure processing in automotive and industrial applications.
Using Amazon Alexa to Control Custom IoT Gadgets
In part two of his article, Brian describes integrating custom IoT gadgets with Amazon Echo using emulation to receive spoken alarms. In part one, he used emulation and Arduino Cloud services as a middleman.
Holiday Hangover Hardware Hacking
Having too much cheer during the holidays? In this month's article, Colin offers a diversion from the jolly season by urging developers to retreat to the basement to brush up on hardware hacking skills. He shows how a low-cost Raspberry Pi Pico and a TP-Link Tapo C200 smart IP camera could become the next automated bird deterrent or a home automation server.
Datasheet: Microamps Per Megahertz Ultra-Low Power MCUs Minimize Current Consumption
How do chip makers differentiate if many ultra-low power MCUs on the market feature the same processor core? The peripherals and different power states offer various ways to manage current consumption down to microamps per megahertz.
Smart Home Lock Down Matter Provides Security Blanket
As more devices in the smart home connect to the Internet, they become increasingly vulnerable to outside attacks. Developers can now add the latest security measures to their Smart Home devices through Matter.
Basic Pulse Circuits
In part one of a three-part series, Wolfgang wrote how basic pulse circuits help digital circuits, such as embedded boards with ARM processors, deal with pulse trains or bursts of pulses from the outside. In Part 2, he dives into enabling flip-flops, timing parameters, and synchronization, design tasks needed to capture, detect, and filter pulses.
Building a Wi-Fi Router Watchdog
Dev created a watchdog for a Wi-Fi extender using a Raspberry Pi Pico. This monitors Wi-Fi connectivity for his smart home lighting system, which would require a reset twice a year due to rapid power interruptions.
Create Your Own PCBs with a CNC Milling Machine
Using KiCad, CopperCAM, and Candle Software
Performance Bottlenecks in Embedded Linux Solutions Analysis, Identification, and Mitigation
Good performance is a requirement for every technology, and system designers rely on operating systems to ensure fast and smooth transitions in critical applications. Fortunately, Pedro writes, the embedded Linux OS offers ways for finding, analyzing and mitigating performance bottlenecks so embedded systems can deliver the speed and efficiency that end users expect.
Renesas New RA8 Entry-Line MCU Groups Brings High Performance of Arm Cortex-M85 Processor to Cost-Sensitive Applications with Market-Leading CoreMark Performance
Renesas Electronics Corp., a premier supplier of advanced semiconductor solutions, introduced the RA8E1 and RA8E2 microcontroller (MCU) groups, extending the industry's most powerful series of MCUs.
