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    <description>recent bookmarks from Vaguery</description>
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	<rdf:li rdf:resource="http://blogs.sun.com/jonathan/entry/sun_enters_the_commodity_silicon"/>
	<rdf:li rdf:resource="http://www.opensparc.net/"/>
	<rdf:li rdf:resource="http://www.parallax.com/propeller/index.asp"/>
	<rdf:li rdf:resource="http://www.10zenmonkeys.com/2007/05/24/justice-department-scandal-greg-palast/"/>
	<rdf:li rdf:resource="http://www.teleread.org/blog/?p=6601"/>
	<rdf:li rdf:resource="http://www.smfr.org/robots/"/>
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  </channel><item rdf:about="https://arxiv.org/abs/1901.02950">
    <title>[1901.02950] Spectral Approach to Verifying Non-linear Arithmetic Circuits</title>
    <dc:date>2020-03-20T16:35:16+00:00</dc:date>
    <link>https://arxiv.org/abs/1901.02950</link>
    <dc:creator>Vaguery</dc:creator><description><![CDATA[This paper presents a fast and effective computer algebraic method for analyzing and verifying non-linear integer arithmetic circuits using a novel algebraic spectral model. It introduces a concept of algebraic spectrum, a numerical form of polynomial expression; it uses the distribution of coefficients of the monomials to determine the type of arithmetic function under verification. In contrast to previous works, the proof of functional correctness is achieved by computing an algebraic spectrum combined with a local rewriting of word-level polynomials. The speedup is achieved by propagating coefficients through the circuit using And-Inverter Graph (AIG) datastructure. The effectiveness of the method is demonstrated with experiments including standard and Booth multipliers, and other synthesized non-linear arithmetic circuits up to 1024 bits containing over 12 million gates.
]]></description>
<dc:subject>nonlinear-dynamics electronics engineering-design rather-interesting digital-circuits verification testing simulation to-write-about to-simulate consider:genetic-programming</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:Vaguery/b:86a6958a9054/</dc:identifier>
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<item rdf:about="https://arxiv.org/abs/1709.08609">
    <title>[1709.08609] Phase-Tunable Thermal Logic: Computation with Heat</title>
    <dc:date>2018-02-24T12:26:00+00:00</dc:date>
    <link>https://arxiv.org/abs/1709.08609</link>
    <dc:creator>Vaguery</dc:creator><description><![CDATA[Boolean algebra, the branch of mathematics where variables can assume only true or false value, is the theoretical basis of classical computation. The analogy between Boolean operations and electronic switching circuits, highlighted by Shannon in 1938, paved the way to modern computation based on electronic devices. The grow of computational power of such devices, after an exciting exponential -Moore trend, is nowadays blocked by heat dissipation due to computational tasks, very demanding after the chips miniaturization. Heat is often a detrimental form of energy which increases the systems entropy decreasing the efficiency of logic operations. Here, we propose a physical system able to perform thermal logic operations by reversing the old heat-disorder epitome into a novel heat-order paradigm. We lay the foundations of heat computation by encoding logic state variables in temperature and introducing the thermal counterparts of electronic logic gates. Exploiting quantum effects in thermally biased Josephson junctions (JJs), we propound a possible realization of a functionally complete dissipationless logic. Our architecture ensures high operation stability and robustness with switching frequencies reaching the GHz.
]]></description>
<dc:subject>nanotechnology electronics rather-interesting boolean-networks engineering-design to-write-about</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:Vaguery/b:3e3a83041555/</dc:identifier>
<taxo:topics><rdf:Bag>	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:nanotechnology"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:electronics"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:rather-interesting"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:boolean-networks"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:engineering-design"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:to-write-about"/>
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<item rdf:about="https://arxiv.org/abs/1110.0373">
    <title>[1110.0373] An excitable electronic circuit as a sensory neuron model</title>
    <dc:date>2017-05-09T16:14:36+00:00</dc:date>
    <link>https://arxiv.org/abs/1110.0373</link>
    <dc:creator>Vaguery</dc:creator><description><![CDATA[An electronic circuit device, inspired on the FitzHugh-Nagumo model of neuronal excitability, was constructed and shown to operate with characteristics compatible with those of biological sensory neurons. The nonlinear dynamical model of the electronics quantitatively reproduces the experimental observations on the circuit, including the Hopf bifurcation at the onset of tonic spiking. Moreover, we have implemented an analog noise generator as a source to study the variability of the spike trains. When the circuit is in the excitable regime, coherence resonance is observed. At sufficiently low noise intensity the spike trains have Poisson statistics, as in many biological neurons. The transfer function of the stochastic spike trains has a dynamic range of 6 dB, close to experimental values for real olfactory receptor neurons.
]]></description>
<dc:subject>neural-networks neurology biophysics electronics rather-interesting simulation emulation to-write-about dynamical-systems</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:Vaguery/b:6aa0a5451753/</dc:identifier>
<taxo:topics><rdf:Bag>	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:neural-networks"/>
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	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:biophysics"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:electronics"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:rather-interesting"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:simulation"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:emulation"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:to-write-about"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:dynamical-systems"/>
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<item rdf:about="http://arxiv.org/abs/1502.07449">
    <title>[1502.07449] Concept for a CMOS Image Sensor Suited for Analog Image Pre-Processing</title>
    <dc:date>2015-03-02T11:45:48+00:00</dc:date>
    <link>http://arxiv.org/abs/1502.07449</link>
    <dc:creator>Vaguery</dc:creator><description><![CDATA[A concept for a novel CMOS image sensor suited for analog image pre-processing is presented in this paper. As an example, an image restoration algorithm for reducing image noise is applied as image pre-processing in the analog domain. To supply low-latency data input for analog image preprocessing, the proposed concept for a CMOS image sensor offers a new sensor signal acquisition method in 2D. In comparison to image pre-processing in the digital domain, the proposed analog image pre-processing promises an improved image quality. Furthermore, the image noise at the stage of analog sensor signal acquisition can be used to select the most effective restoration algorithm applied to the analog circuit due to image processing prior to the A/D converter.
]]></description>
<dc:subject>image-processing electronics engineering-design rather-interesting online-learning algorithms</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:Vaguery/b:29c87a205589/</dc:identifier>
<taxo:topics><rdf:Bag>	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:image-processing"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:electronics"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:engineering-design"/>
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<item rdf:about="http://arxiv.org/abs/1011.2861">
    <title>[1011.2861] A Comprehensive Workflow for General-Purpose Neural Modeling with Highly Configurable Neuromorphic Hardware Systems</title>
    <dc:date>2011-08-25T11:19:46+00:00</dc:date>
    <link>http://arxiv.org/abs/1011.2861</link>
    <dc:creator>Vaguery</dc:creator><description><![CDATA["In this paper we present a methodological framework that meets novel requirements emerging from upcoming types of accelerated and highly configurable neuromorphic hardware systems. We describe in detail a device with 45 million programmable and dynamic synapses that is currently under development, and we sketch the conceptual challenges that arise from taking this platform into operation. More specifically, we aim at the establishment of this neuromorphic system as a flexible and neuroscientifically valuable modeling tool that can be used by non-hardware-experts. We consider various functional aspects to be crucial for this purpose, and we introduce a consistent workflow with detailed descriptions of all involved modules that implement the suggested steps: The integration of the hardware interface into the simulator-independent model description language PyNN; a fully automated translation between the PyNN domain and appropriate hardware configurations; an executable specification of the future neuromorphic system that can be seamlessly integrated into this biology-to-hardware mapping process as a test bench for all software layers and possible hardware design modifications; an evaluation scheme that deploys models from a dedicated benchmark library, compares the results generated by virtual or prototype hardware devices with reference software simulations and analyzes the differences. The integration of these components into one hardware-software workflow provides an ecosystem for ongoing preparative studies that support the hardware design process and represents the basis for the maturity of the model-to-hardware mapping software. The functionality and flexibility of the latter is proven with a variety of experimental results."]]></description>
<dc:subject>neural-networks biologically-inspired electronics emergent-design nudge-targets</dc:subject>
<dc:source>https://pinboard.in/</dc:source>
<dc:identifier>https://pinboard.in/u:Vaguery/b:373bb0380986/</dc:identifier>
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<item rdf:about="http://arxiv.org/abs/1006.3598">
    <title>[1006.3598] Memory circuit elements: from systems to applications</title>
    <dc:date>2010-06-23T13:22:14+00:00</dc:date>
    <link>http://arxiv.org/abs/1006.3598</link>
    <dc:creator>Vaguery</dc:creator><description><![CDATA["In this paper, we briefly review the concept of memory circuit elements, namely memristors, memcapacitors and meminductors, and then discuss some applications by focusing mainly on the first class. We present several examples, their modeling and applications ranging from analog programming to biological systems. Since the phenomena associated with memory are ubiquitous at the nanoscale, we expect the interest in these circuit elements to increase in coming years."
]]></description>
<dc:subject>electronics analog-design analog-circuits engineering-design memristors nudge-targets models</dc:subject>
<dc:identifier>https://pinboard.in/u:Vaguery/b:1f734d1a2032/</dc:identifier>
<taxo:topics><rdf:Bag>	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:electronics"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:analog-design"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:analog-circuits"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:engineering-design"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:memristors"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:nudge-targets"/>
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<item rdf:about="http://www.youtube.com/watch?v=lslHtCUSfN4&amp;feature=player_embedded">
    <title>YouTube - Directional Antennas</title>
    <dc:date>2010-02-25T22:06:55+00:00</dc:date>
    <link>http://www.youtube.com/watch?v=lslHtCUSfN4&amp;feature=player_embedded</link>
    <dc:creator>Vaguery</dc:creator><description><![CDATA[Dammit, why did these not exist when I was a kid and my Dad was trying to teach me this stuff??
]]></description>
<dc:subject>electronics radio physics Making antennas electromagnetism demo DIY Yagi-antenna</dc:subject>
<dc:identifier>https://pinboard.in/u:Vaguery/b:1e2882b3f590/</dc:identifier>
<taxo:topics><rdf:Bag>	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:electronics"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:radio"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:physics"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:Making"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:antennas"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:electromagnetism"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:demo"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:DIY"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:Yagi-antenna"/>
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</item>
<item rdf:about="http://blog.makezine.com/archive/2009/12/open_source_hardware_2009_-_the_def.html">
    <title>Make: Online : Open source hardware 2009 - The definitive guide to open source hardware projects in 2009</title>
    <dc:date>2009-12-16T13:02:31+00:00</dc:date>
    <link>http://blog.makezine.com/archive/2009/12/open_source_hardware_2009_-_the_def.html</link>
    <dc:creator>Vaguery</dc:creator><description><![CDATA["Welcome to definitive guide to open source hardware projects in 2009. First up - What is open source hardware? These are projects in which the creators have decided to completely publish all the source, schematics, firmware, software, bill of materials, parts list, drawings and "board" files to recreate the hardware - they also allow any use, including commercial. Similar to open source software like Linux, but this hardware centric."
]]></description>
<dc:subject>open-source open-hardware makers engineering engineering-design hobbies reference opensource DIY electronics howto</dc:subject>
<dc:identifier>https://pinboard.in/u:Vaguery/b:fe7f61bb7cb4/</dc:identifier>
<taxo:topics><rdf:Bag>	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:open-source"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:open-hardware"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:makers"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:engineering"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:engineering-design"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:hobbies"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:reference"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:opensource"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:DIY"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:electronics"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:howto"/>
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<item rdf:about="http://diydrones.com/profiles/blog/show?id=705844%3ABlogPost%3A44817">
    <title>BlimpDuino home page - DIY Drones</title>
    <dc:date>2009-11-22T14:28:55+00:00</dc:date>
    <link>http://diydrones.com/profiles/blog/show?id=705844%3ABlogPost%3A44817</link>
    <dc:creator>Vaguery</dc:creator><dc:subject>robotics Arduino Ruby hardware making projects autonomous opensource electronics aircraft</dc:subject>
<dc:identifier>https://pinboard.in/u:Vaguery/b:7bc4d21f4971/</dc:identifier>
<taxo:topics><rdf:Bag>	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:robotics"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:Arduino"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:Ruby"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:hardware"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:making"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:projects"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:autonomous"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:opensource"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:electronics"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:aircraft"/>
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</item>
<item rdf:about="http://citizenengineer.com/">
    <title>citizen engineer - HD video, comic book/zine &amp; kit</title>
    <dc:date>2009-07-24T11:56:54+00:00</dc:date>
    <link>http://citizenengineer.com/</link>
    <dc:creator>Vaguery</dc:creator><dc:subject>makers hacking telephony engineering video education tutorial hardware hack security electronics</dc:subject>
<dc:identifier>https://pinboard.in/u:Vaguery/b:bf3760f3a2f2/</dc:identifier>
<taxo:topics><rdf:Bag>	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:makers"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:hacking"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:telephony"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:engineering"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:video"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:education"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:tutorial"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:hardware"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:hack"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:security"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:electronics"/>
</rdf:Bag></taxo:topics>
</item>
<item rdf:about="http://www.stompboxnetworks.com/intro.html">
    <title>EVDO StompBox Project</title>
    <dc:date>2009-04-09T11:13:28+00:00</dc:date>
    <link>http://www.stompboxnetworks.com/intro.html</link>
    <dc:creator>Vaguery</dc:creator><description><![CDATA["These web pages are about a project I've been working on. Put briefly, it's a WWAN (Wireless Wide Area Network) router. In more human terms, it's a compact little box that gets data from cellular towers and re-shares it for multiple computers to use.

To use it all you do is plug it in to the cigarette lighter of a car (or a 12v supply when at home). It automatically boots up and links in to Verizon's "Broadband Access" service, turning itself into an access point. Turn on your laptop, join the network and voila -- you're on the net! It's just like using a hotspot (such as they have at Starbucks and airports), but it goes anywhere you car goes."
]]></description>
<dc:subject>coworkout wireless portable WiFi Making hardware hack DIY electronics hacks mobile car how-to</dc:subject>
<dc:identifier>https://pinboard.in/u:Vaguery/b:e85d8fc9612d/</dc:identifier>
<taxo:topics><rdf:Bag>	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:coworkout"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:wireless"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:portable"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:WiFi"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:Making"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:hardware"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:hack"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:DIY"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:electronics"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:hacks"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:mobile"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:car"/>
	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:how-to"/>
</rdf:Bag></taxo:topics>
</item>
<item rdf:about="http://www.evilmadscientist.com/article.php/shenzhen">
    <title>A visit to the electronics markets of Shenzhen - Evil Mad Scientist Laboratories</title>
    <dc:date>2009-03-06T16:23:22+00:00</dc:date>
    <link>http://www.evilmadscientist.com/article.php/shenzhen</link>
    <dc:creator>Vaguery</dc:creator><description><![CDATA["I've just returned from a week long trip to Shenzhen, China in a "geek tour" trip organized by Bunnie Huang, with some assistance from the fine folks at PCH International."
]]></description>
<dc:subject>China electronics makers tour factory geeks components</dc:subject>
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<item rdf:about="http://blogs.sun.com/jonathan/entry/sun_enters_the_commodity_silicon">
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    <link>http://blogs.sun.com/jonathan/entry/sun_enters_the_commodity_silicon</link>
    <dc:creator>Vaguery</dc:creator><dc:subject>commodity chip electronics design intellectual-property Sun strategy branding marketing openness open-source patents control</dc:subject>
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</item>
<item rdf:about="http://www.opensparc.net/">
    <title>Welcome to OpenSPARC.net</title>
    <dc:date>2007-08-30T11:55:07+00:00</dc:date>
    <link>http://www.opensparc.net/</link>
    <dc:creator>Vaguery</dc:creator><dc:subject>openness open-source design manufacturing electronics Sun research technology chip intellectual-property</dc:subject>
<dc:identifier>https://pinboard.in/u:Vaguery/b:ef92f1b126a5/</dc:identifier>
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</item>
<item rdf:about="http://www.parallax.com/propeller/index.asp">
    <title>Propeller Page</title>
    <dc:date>2007-06-08T12:22:54+00:00</dc:date>
    <link>http://www.parallax.com/propeller/index.asp</link>
    <dc:creator>Vaguery</dc:creator><dc:subject>make hardware electronics chip technology learning-by-doing robotics parallel computing</dc:subject>
<dc:identifier>https://pinboard.in/u:Vaguery/b:cf079b1971db/</dc:identifier>
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<item rdf:about="http://www.10zenmonkeys.com/2007/05/24/justice-department-scandal-greg-palast/">
    <title>The Future of America Has Been Stolen - 10 Zen Monkeys (a webzine)</title>
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    <link>http://www.10zenmonkeys.com/2007/05/24/justice-department-scandal-greg-palast/</link>
    <dc:creator>Vaguery</dc:creator><dc:subject>politics fascism government voting fraud history interview electronics Bushism election</dc:subject>
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</item>
<item rdf:about="http://www.teleread.org/blog/?p=6601">
    <title>TeleRead: Bring the E-Books Home » The first book format wars?</title>
    <dc:date>2007-05-26T11:41:34+00:00</dc:date>
    <link>http://www.teleread.org/blog/?p=6601</link>
    <dc:creator>Vaguery</dc:creator><description><![CDATA[I expect there were open-source vs. commercial control wars as well, with every stage of adoption of new tech....
]]></description>
<dc:subject>books history standards ebooks reading format publishing electronics print</dc:subject>
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</item>
<item rdf:about="http://www.smfr.org/robots/">
    <title>BEAM Robots</title>
    <dc:date>2007-05-16T11:20:26+00:00</dc:date>
    <link>http://www.smfr.org/robots/</link>
    <dc:creator>Vaguery</dc:creator><description><![CDATA[Simon Fraser's BEAM robotic projects
]]></description>
<dc:subject>robotics make hacking hardware electronics design adaptation dynamic aesthetics autonomy</dc:subject>
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</item>
<item rdf:about="http://www.makezine.com/blog/archive/2006/11/snap_circuits_e.html">
    <title>MAKE: Blog: Snap circuits electronic educational kits</title>
    <dc:date>2007-02-17T12:23:55+00:00</dc:date>
    <link>http://www.makezine.com/blog/archive/2006/11/snap_circuits_e.html</link>
    <dc:creator>Vaguery</dc:creator><dc:subject>via:vielmetti via:mitten electronics toys kits modular design education learning-by-doing circuits</dc:subject>
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</item>
<item rdf:about="http://www.makezine.com/blog/archive/2007/01/how_to_how_to_r.html?CMP=OTC-0D6B48984890">
    <title>MAKE: Blog: HOW TO - How to read a resistor (PDF)</title>
    <dc:date>2007-01-26T13:27:49+00:00</dc:date>
    <link>http://www.makezine.com/blog/archive/2007/01/how_to_how_to_r.html?CMP=OTC-0D6B48984890</link>
    <dc:creator>Vaguery</dc:creator><dc:subject>engineering electronics resistor self-help</dc:subject>
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	<rdf:li rdf:resource="https://pinboard.in/u:Vaguery/t:resistor"/>
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