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Line 1: {{Infobox programming language \| name = Atom \| logo = \| paradigm = [[~~functional~~Functional programming\|~~functional~~Functional]], [[Synchronous programming language\|synchronous]], [[Reactive programming\|reactive]] \| family = [[Haskell]] ~~\| year = 2007~~ \| designer = Thomas Hawkins \| developer = \| released = {{Start date and age\|2007}} ~~\| latest_release_version =~~ \| latest release version = 1.0.13 ~~\| latest_release_date =~~ \| latest release date = {{Start date and age\|2021\|11\|13}} ~~\| latest_test_version =~~ \| typing = [[~~static~~Static typing\|static]], [[~~strong~~Strong and weak typing\|strong~~]], [[type inference\|inferred~~]]▼ ~~\| latest_test_date =~~ \| implementations = ▼ ▲\| typing = [[static typing\|static]], [[strong typing\|strong]], [[type inference\|inferred]] \| dialects =▼ ▲\| implementations = \| influenced = ▲\| dialects = \| influenced by = [[Bluespec]], Confluence, =[[Haskell]] \| operating system = [[Cross-platform software\|Cross-platform]] ~~\| influenced_by = [[Bluespec, Inc.\|Bluespec]], Confluence, [[Haskell (programming language)\|Haskell]]~~ \| license = [[BSD licenses\|BSD]]3 ~~\| operating_system = portable~~ \| website = ~~http://~~{{URL\|hackage.haskell.org/package/atom/}}▼ ~~\| license = [[Bsd license\|BSD3]]~~ \| file ext =▼ ▲\| website = http://hackage.haskell.org/package/atom/ ▲\| file ext = }} '''Atom''' is a [[___domain-specific language]] (DSL) in [[~~Haskell (programming language)\|~~Haskell]], for designing [[Real-time computing\|real-time]] [[~~Embedded~~embedded ~~programming\|embedded~~software]] ~~software~~. == History == Originally intended as a [[High-level programming language\|high-level]] [[hardware description language]] (HDL), Atom was created in early 2007 and released as [[free and open-source software]] (FOSS) of April of that year.<ref>{{Cite report \|url=http://www.haskell.org/pipermail/haskell-cafe/2007-April/024090.html \|title=ANN: Atom: Yet another Haskell HDL}}</ref> Inspired by TRS<ref name="hoe1">{{Cite conference \|last1=Hoe \|first1=James C. \|author2=Arvind \|author2-link=Arvind (computer scientist) \|date=November 2000 \|url=http://www.ece.cmu.edu/~jhoe/distribution/2000/iccad00.pdf \|title=Synthesis of Operation-Centric Hardware Descriptions \|conference=International Conference on Computer Aided Design (ICCAD)}}</ref> and [[Bluespec]], Atom [[Compiler\|compiled]] circuit descriptions, that were based on guarded [[Linearizability\|atomic operations]], or conditional term [[rewriting]], into [[Verilog]] [[netlist]]s for simulation and [[logic synthesis]]. As a hardware compiler, Atom's main objective is to maximize the number of operations, or rules, that can execute in a given [[Clock signal#Digital circuits\|clock cycle]] without violating the semantics of atomic operation. By employing the properties of conflict-free and sequentially composable rules,<ref name="hoe1"/> Atom reduced maximizing execution [[Concurrency (computer science)\|concurrency]] to a [[feedback arc set]] optimization of a rule-data dependency graph. This process was similar to [[James Hoe]]'s original algorithm.<ref name="hoe1"/> When Atom's author switched careers in late 2007, from [[Logic synthesis\|logic design]] to [[embedded system]] software engineering, Atom was redesigned from an HDL to a [[___domain-specific language]] targeting hard [[real-time computing]] embedded applications. As a result, Atom's compiler's main objective changed from maximizing rule concurrency to balancing processing load and minimizing [[Worst case execution time\|worst case timing latency]]. In September 2008, Atom was presented at the Commercial Users of Functional Programming (CUFP) conference.<ref>{{Cite web \|url=http://cufp.galois.com/2008/schedule.html \|title=Controlling Hybrid Vehicles with Haskell \|url-status=dead \|archive-url=https://web.archive.org/web/20080704175648/http://cufp.galois.com/2008/schedule.html \|archive-date=2008-07-04 \|access-date=2009-12-05}}</ref> In April 2009, in its new form, it was released as FOSS.<ref>[http://www.haskell.org/pipermail/haskell-cafe/2009-April/060602.html ANN: atom-0.0.2]</ref> Originally intended as a high level [[hardware description language]], Atom was created in early 2007 and released in open-source of April of the same year.<ref>[http://www.haskell.org/pipermail/haskell-cafe/2007-April/024090.html ANN: Atom - Yet another Haskell HDL]</ref> ~~Inspired by TRS <ref name="hoe1">[http://www.ece.cmu.edu/~jhoe/distribution/2000/iccad00.pdf Synthesis of Operation-Centric Hardware Descriptions].~~ ~~James C. Hoe and Arvind. International Conference on Computer Aided Design (ICCAD), November 2000.</ref>~~ and [[Bluespec]], Atom compiled circuit descriptions, that were based on guarded atomic operations, or [[Term Rewriting System\|conditional term rewriting]], into [[Verilog]] [[netlist]]s for simulation and [[logic synthesis]]. ~~As a hardware compiler, Atom's primary objective was to maximize the number of operations, or rules, that can execute in a given clock cycle without violating the semantics of atomic operation.~~ By employing the properties of conflict-free and sequentially-composable rules,<ref name="hoe1"/> Atom reduced maximizing execution concurrency to a [[feedback arc set]] optimization of a rule-data dependency graph. This process was similar to [[James Hoe]]'s original algorithm.<ref name="hoe1" /> When Atom's author switched careers in late 2007 from logic design to [[Embedded systems\|embedded software]] engineering, Atom was redesigned from an [[hardware description language\|HDL]] to a [[___domain specific language]] targeting [[Realtime computing\|hard realtime]] embedded applications. As a result, Atom's compiler's primary objective changed from maximizing rule concurrency to balancing processing load and minimizing ~~[[Worst case execution time\|worst case timing latency]]. In September 2008, Atom was presented at CUFP,<ref>[http://cufp.galois.com/2008/schedule.html Controlling Hybrid Vehicles with Haskell.]</ref>~~ ~~and in April 2009, was released as open-source in its new form.<ref>[http://www.haskell.org/pipermail/haskell-cafe/2009-April/060602.html ANN: atom-0.0.2]</ref>~~ == Overview == Atom is a concurrent programming language intended for embedded applications. Atom features [[~~Compile~~compile ~~time\|compile-~~time]] task [[Scheduling (computing)\|~~task~~ scheduling]] and generates code with [[Determinism\|deterministic]] execution time and memory ~~consumption~~use, simplifying [[worst case execution time]] analysis for applications that ~~require~~need ~~[[Realtime computing\|~~hard realtime]] performance. Atom's concurrency model is that of guarded [[~~Atomic~~atomic action~~\|guarded atomic actions~~]]s, which eliminates the need for, and the [[~~Lock_~~Lock (~~computer_science~~computer science)#~~The_problems_with_locks~~Disadvantages\|problems]] of using, [[Lock (computer science)\|mutex locks]].▼ By removing [[~~Run time~~Runtime (program lifecycle phase)\|~~run-time~~runtime]] task scheduling and mutex ~~locking—two~~locking, two services traditionally served by ana [[~~Real~~real-time operating system~~\|RTOS~~]]~~—Atom~~ (RTOS), Atom can eliminate the need and overhead of an ~~[[Real-time operating system\|~~RTOS]] in embedded applications.▼ ▲Atom is a concurrent programming language intended for embedded applications. Atom features [[Compile time\|compile-time]] [[Scheduling (computing)\|task scheduling]] and generates code with deterministic execution time and memory consumption, simplifying [[worst case execution time]] analysis for applications that require [[Realtime computing\|hard realtime]] performance. Atom's concurrency model is that of [[Atomic action\|guarded atomic actions]], which eliminates the need for, and the [[Lock_(computer_science)#The_problems_with_locks\|problems]] of using, [[Lock (computer science)\|mutex locks]]. == ~~Examples~~Limits ==▼ ▲By removing [[Run time (program lifecycle phase)\|run-time]] task scheduling and mutex locking—two services traditionally served by an [[Real-time operating system\|RTOS]]—Atom can eliminate the need and overhead of an [[Real-time operating system\|RTOS]] in embedded applications. To provide guarantees of deterministic execution time and memory consumption, Atom places several restrictions on ~~computation~~computing. First, Atom designs are always [[Finite-state machine\|finite state]]: all variables are global and declared at compile time and [[Memory management#Automated memory management\|dynamic memory allocation]] is ~~not allowed~~disallowed. Second, Atom provides no function or looping constructs. Instead, state variable updates are pure [[~~Combinational~~combinational logic~~\|combinational~~]] functions]] of the current state.▼ ▲== Examples == ~~{{Empty section\|date=July 2010}}~~ ~~== Limitations ==~~ ▲To provide guarantees of deterministic execution time and memory consumption, Atom places several restrictions on computation. First, Atom designs are always finite state: all variables are global and declared at compile time and [[dynamic memory allocation]] is not allowed. Second, Atom provides no function or looping constructs. Instead state variable updates are pure [[Combinational logic\|combinational functions]] of the current state. == References == {{Reflist}} == External links ==▼ ~~{{reflist}}~~ {{Official website\|hackage.haskell.org/package/atom}} {{GitHub\|tomahawkins/atom}} {{Haskell programming}} ▲== External links == [[Category:Declarative programming languages]] [[Category:Embedded systems]]▼ [[Category:Functional languages]] [[Category:Real-time computing]] [[Category:Synchronous programming languages]] [[Category:Statically typed programming languages]] [[Category:Haskell programming language family]] [[Category:Free software programmed in Haskell]] [[Category:Cross-platform free software]] [[Category:Free and open source compilers]] [[Category:Programming languages created in 2007]] ▲[[Category:~~Embedded~~2007 ~~systems~~software]]