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When concepts fail, words arise Faust , Goethe

When concepts fail, words arise Faust , Goethe. Mephistopheles . …Enter the templed hall of Certainty. Student . Yet in each word some concept there must be.

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When concepts fail, words arise Faust , Goethe

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  1. When concepts fail, words ariseFaust, Goethe Mephistopheles. …Enter the templed hall of Certainty. Student. Yet in each word some concept there must be. Mephistopheles. Quite true! But don't torment yourself too anxiously;For at the point where concepts fail,At the right time a word is thrust in there…

  2. Requirements on systems and architectures dependable deployable discoverable distributable durable effective efficient evolvable extensible failure transparent fault-tolerant fidelity flexible inspectable installable Integrity interchangeable interoperable learnable maintainable manageable mobile modifiable modular nomadic operable orthogonality portable precision predictable producible provable recoverable relevant reliable repeatable reproducible resilient responsive reusable robust safety scalable seamless self-sustainable serviceable supportable securable simplicity stable standards compliant survivable sustainable tailorable testable timely traceable ubiquitous understandable upgradable usable accessible accountable accurate adaptable administrable affordable auditable autonomy available credible process capable compatible composable configurable correctness customizable debugable degradable determinable demonstrable

  3. Requirements on systems and architectures dependable deployable discoverable distributable durable effective efficient evolvable extensible failure transparent fault-tolerant fidelity flexible inspectable installable Integrity interchangeable interoperable learnable maintainable manageable mobile modifiable modular nomadic operable orthogonality portable precision predictable producible provable recoverable relevant reliable repeatable reproducible resilient responsive reusable robust safety scalable seamless self-sustainable serviceable supportable securable simplicity stable standards compliant survivable sustainable tailorable testable timely traceable ubiquitous understandable upgradable usable accessible accountable accurate adaptable administrable affordable auditable autonomy available credible process capable compatible composable configurable correctness customizable debugable degradable determinable demonstrable Long term

  4. Lumping requirements into simple groups dependable deployable discoverable distributable durable effective evolvable extensible failure transparent fault-tolerant fidelity flexible inspectable installable Integrity interchangeable interoperable learnable maintainable manageable mobile modifiable modular nomadic operable orthogonality portable precision predictable producible provable recoverable relevant reliable repeatable reproducible resilient responsive reusable safety scalable seamless self-sustainable serviceable supportable securable stable standards compliant survivable tailorable testable timely traceable ubiquitous understandable upgradable usable accessible accountable accurate adaptable administrable affordable auditable autonomy available credible process capable compatible composable configurable correctness customizable debugable degradable determinable demonstrable efficient simple sustainable robust

  5. Requirements on systems and architectures efficient simple sustainable robust

  6. Requirements on systems and architectures efficient simple sustainable robust

  7. Requirements on systems and architectures sustainable fragile evolvable robust simple wasteful efficient complex

  8. Requirements on systems and architectures sustainable fragile complex simple robust wasteful efficient

  9. Requirements on systems and architectures sustainable fragile Achievable Not Best robust wasteful efficient

  10. Current Technology? fragile At best we get one robust efficient wasteful

  11. ??? fragile Often neither robust efficient wasteful

  12. Future evolution of the “smart” grid? Future? fragile Now robust wasteful efficient

  13. ??? Bad architectures? fragile ? gap? Bad theory? ? robust efficient wasteful

  14. laws and architectures? fragile Case studies Sharpen hard bounds Hard limit robust wasteful efficient

  15. Even with a murky picture bad  fragile Find and fix bugs Case studies Sharpen hard bounds Hard limit wasteful

  16. Compute Comms Godel Shannon Turing Von Neumann Theory? Deep, but fragmented, incoherent, incomplete Nash Bode Carnot Pontryagin Boltzmann Heisenberg Kalman Physics Control, OR Einstein

  17. Compute Comms Godel Shannon Turing • Each theory one dimension • Tradeoffs across dimensions • Assume architectures a priori • Progress is encouraging, but… • Stovepipes are an obstacle… slow? fragile? ? inflexible? Carnot Boltzmann Bode Heisenberg Physics Control Einstein

  18. Compute Communicate Turing Shannon Delay is most important Delay is least important Carnot Bode Boltzmann Control, OR Heisenberg Physics Einstein

  19. Compute Communicate Lowering the barrier Turing Shannon Delay is most important New progress! Delay is least important Carnot Boltzmann Bode Heisenberg Control, OR Physics Einstein

  20. Prefrontal Horizontal Meme Transfer Motor Sensory Learning Software Striatum Hardware Reflex Horizontal App Transfer DNAp Repl. Gene Digital DNA Analog RNAp transc. xRNA ATP RNA Ribosome AA transl. Proteins Horizontal Gene Transfer Nucl. AA ATP Catabolism Precursors

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