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Version 81 (Anthony Rowe, 02/03/2008 04:19 pm)

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<div class="menu_active">Overview</div>
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<div class="menu"><a href="/nano-RK/wiki/FAQ" class="menu">FAQ</a></div>
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<div class="menu"><a href="/nano-RK/wiki/Quick-Start" class="menu">Quick-Start</a></div>
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<div class="menu"><a href="/nano-RK/wiki/Downloads" class="menu">Downloads</a></div>
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<div class="menu"><a href="/nano-RK/wiki/Documentation" class="menu">Documentation</a></div>
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<div class="menu"><a href="/nano-RK/wiki/People" class="menu">People</a></div>
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<div class="menu"><a href="/nano-RK/wiki/Links" class="menu">Links</a></div>
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<div class="menu"><a href="/nano-RK/wiki/Pubs" class="menu">Publications</a></div>
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= Nano-RK: A Wireless Sensor Networking Real-Time Operating System  =
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Nano-RK is a fully preemptive reservation-based real-time operating system (RTOS) from [http://www.cmu.edu Carnegie Mellon University] with multi-hop networking support for use in wireless sensor networks. Nano-RK currently runs on the FireFly Sensor Networking Platform as well as the [wiki:MicaZ] motes. It includes a light-weight embedded resource kernel (RK) with rich functionality and timing support using less than 2KB of RAM and 18KB of ROM. Nano-RK supports fixed-priority preemptive multitasking for ensuring that task deadlines are met, along with support for CPU, network, as well as, sensor and actuator reservations. Tasks can specify their resource demands and the operating system provides
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timely, guaranteed and controlled access to CPU cycles and network packets. Together these resources form virtual energy reservations that allows the OS to enforce system and task level energy budgets. 
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== News ==
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 * 12/29/2007 ''Choosing the best system software architecture for your wireless smart sensor design'' [http://www.embedded.com/design/networking/204800543?pgno=1 embedded.com Article] 
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 * 10/6/2007 Public Subversion Read Access for pre-beta [wiki:releases release]
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== Features ==
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 * C GNU tool-chain
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 * Classical Preemptive Operating System Multitasking Abstractions
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 * Real-Time Priority Based Scheduling
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 * Built-in Fault Handling
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  * Task Timing Violations
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  * Stack Integrity
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  * Unexpected Node Restarts
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  * Resource Over-Use 
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  * Low Voltage Detection
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  * Watchdog Timer
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 * Energy Efficient Scheduling based on ''a-prior'' task-set knowledge
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 * Small Footprint (<2K RAM, 16K ROM, including link layer)
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 * [wiki:SLIPstream] (a simple gateway to IP network protocol and utility)
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 * [wiki:TimeScope] (a code execution time measurement utility built into the FireFly programmer boards)
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 * [wiki:avr-studio AVR Studio 4 Debugging]  (Simulating Nano-RK code on a single node using AVR Studio 4 is easy)
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Nano-RK supports various wireless link layer protocols including:
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 * [wiki:RT-Link] for collision free Real-Time communication
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 * [wiki:WiDom] a collision free priority based link layer
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 * [wiki:b-mac] for low-power contention based communication
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Nano-RK provides an extensible UDP style networking interface
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[[Image(htdocs:images/nrk_arch.png)]]
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Sample Nano-RK architecture figure showing user applications and [wiki:RT-Link].