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CS 61A Lecture 44: Review II CS 61A The Structure and Interpretation of Computer Programs Instructor Brian Harvey Spring 2008 Introduction to programming and computer science. This course exposes students to techniques of abstraction at several levels: (a) within a programming language, using higher-order functions, manifest types, data-directed programming, and message-passing; (b) between programming languages, using functional and rule-based languages as examples. It also relates these techniques to the practical problems of implementation of languages and algorithms on a von Neumann machine. There are several significant programming projects, programmed in a dialect of the LISP language. Tags: uc berkeley computer science cs 61A course class

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CS 61A Lecture 43: Review I CS 61A The Structure and Interpretation of Computer Programs Instructor Brian Harvey Spring 2008 Introduction to programming and computer science. This course exposes students to techniques of abstraction at several levels: (a) within a programming language, using higher-order functions, manifest types, data-directed programming, and message-passing; (b) between programming languages, using functional and rule-based languages as examples. It also relates these techniques to the practical problems of implementation of languages and algorithms on a von Neumann machine. There are several significant programming projects, programmed in a dialect of the LISP language. Tags: uc berkeley computer science cs 61A course class

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CS 61A Lecture 42: Logic Programming II CS 61A The Structure and Interpretation of Computer Programs Instructor Brian Harvey Spring 2008 Introduction to programming and computer science. This course exposes students to techniques of abstraction at several levels: (a) within a programming language, using higher-order functions, manifest types, data-directed programming, and message-passing; (b) between programming languages, using functional and rule-based languages as examples. It also relates these techniques to the practical problems of implementation of languages and algorithms on a von Neumann machine. There are several significant programming projects, programmed in a dialect of the LISP language. Tags: uc berkeley computer science cs 61A course class

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CS 61A Lecture 41: Logic Programming I CS 61A The Structure and Interpretation of Computer Programs Instructor Brian Harvey Spring 2008 Introduction to programming and computer science. This course exposes students to techniques of abstraction at several levels: (a) within a programming language, using higher-order functions, manifest types, data-directed programming, and message-passing; (b) between programming languages, using functional and rule-based languages as examples. It also relates these techniques to the practical problems of implementation of languages and algorithms on a von Neumann machine. There are several significant programming projects, programmed in a dialect of the LISP language. Tags: uc berkeley computer science cs 61A course class

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CS 61A Lecture 37: Therac CS 61A The Structure and Interpretation of Computer Programs Instructor Brian Harvey Spring 2008 Introduction to programming and computer science. This course exposes students to techniques of abstraction at several levels: (a) within a programming language, using higher-order functions, manifest types, data-directed programming, and message-passing; (b) between programming languages, using functional and rule-based languages as examples. It also relates these techniques to the practical problems of implementation of languages and algorithms on a von Neumann machine. There are several significant programming projects, programmed in a dialect of the LISP language. Tags: uc berkeley computer science cs 61A course class

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CS 61A Lecture 40: Nondeterministic Evaluation CS 61A The Structure and Interpretation of Computer Programs Instructor Brian Harvey Spring 2008 Introduction to programming and computer science. This course exposes students to techniques of abstraction at several levels: (a) within a programming language, using higher-order functions, manifest types, data-directed programming, and message-passing; (b) between programming languages, using functional and rule-based languages as examples. It also relates these techniques to the practical problems of implementation of languages and algorithms on a von Neumann machine. There are several significant programming projects, programmed in a dialect of the LISP language. Tags: uc berkeley computer science cs 61A course class

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CS 61A Lecture 38: Lazy Evaluation I CS 61A The Structure and Interpretation of Computer Programs Instructor Brian Harvey Spring 2008 Introduction to programming and computer science. This course exposes students to techniques of abstraction at several levels: (a) within a programming language, using higher-order functions, manifest types, data-directed programming, and message-passing; (b) between programming languages, using functional and rule-based languages as examples. It also relates these techniques to the practical problems of implementation of languages and algorithms on a von Neumann machine. There are several significant programming projects, programmed in a dialect of the LISP language. Tags: uc berkeley computer science cs 61A course class

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CS 61A Lecture 35: Mapreduce II CS 61A The Structure and Interpretation of Computer Programs Instructor Brian Harvey Spring 2008 Introduction to programming and computer science. This course exposes students to techniques of abstraction at several levels: (a) within a programming language, using higher-order functions, manifest types, data-directed programming, and message-passing; (b) between programming languages, using functional and rule-based languages as examples. It also relates these techniques to the practical problems of implementation of languages and algorithms on a von Neumann machine. There are several significant programming projects, programmed in a dialect of the LISP language. Tags: uc berkeley computer science cs 61A course class

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CS 61A Lecture 32: Metacircular Evaluation I CS 61A The Structure and Interpretation of Computer Programs Instructor Brian Harvey Spring 2008 Introduction to programming and computer science. This course exposes students to techniques of abstraction at several levels: (a) within a programming language, using higher-order functions, manifest types, data-directed programming, and message-passing; (b) between programming languages, using functional and rule-based languages as examples. It also relates these techniques to the practical problems of implementation of languages and algorithms on a von Neumann machine. There are several significant programming projects, programmed in a dialect of the LISP language. Tags: uc berkeley computer science cs 61A course class

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CS 61A Lecture 34: Mapreduce I CS 61A The Structure and Interpretation of Computer Programs Instructor Brian Harvey Spring 2008 Introduction to programming and computer science. This course exposes students to techniques of abstraction at several levels: (a) within a programming language, using higher-order functions, manifest types, data-directed programming, and message-passing; (b) between programming languages, using functional and rule-based languages as examples. It also relates these techniques to the practical problems of implementation of languages and algorithms on a von Neumann machine. There are several significant programming projects, programmed in a dialect of the LISP language. Tags: uc berkeley computer science cs 61A course class

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CS 61A Lecture 30: Shell Programming I CS 61A The Structure and Interpretation of Computer Programs Instructor Brian Harvey Spring 2008 Introduction to programming and computer science. This course exposes students to techniques of abstraction at several levels: (a) within a programming language, using higher-order functions, manifest types, data-directed programming, and message-passing; (b) between programming languages, using functional and rule-based languages as examples. It also relates these techniques to the practical problems of implementation of languages and algorithms on a von Neumann machine. There are several significant programming projects, programmed in a dialect of the LISP language. Tags: uc berkeley computer science cs 61A course class

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CS 61A Lecture 29: Streams CS 61A The Structure and Interpretation of Computer Programs Instructor Brian Harvey Spring 2008 Introduction to programming and computer science. This course exposes students to techniques of abstraction at several levels: (a) within a programming language, using higher-order functions, manifest types, data-directed programming, and message-passing; (b) between programming languages, using functional and rule-based languages as examples. It also relates these techniques to the practical problems of implementation of languages and algorithms on a von Neumann machine. There are several significant programming projects, programmed in a dialect of the LISP language. Tags: uc berkeley computer science cs 61A course class

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CS 61A Lecture 31: Shell Programming II CS 61A The Structure and Interpretation of Computer Programs Instructor Brian Harvey Spring 2008 Introduction to programming and computer science. This course exposes students to techniques of abstraction at several levels: (a) within a programming language, using higher-order functions, manifest types, data-directed programming, and message-passing; (b) between programming languages, using functional and rule-based languages as examples. It also relates these techniques to the practical problems of implementation of languages and algorithms on a von Neumann machine. There are several significant programming projects, programmed in a dialect of the LISP language. Tags: uc berkeley computer science cs 61A course class

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CS 61A Lecture 33: Metacircular Evaluation II CS 61A The Structure and Interpretation of Computer Programs Instructor Brian Harvey Spring 2008 Introduction to programming and computer science. This course exposes students to techniques of abstraction at several levels: (a) within a programming language, using higher-order functions, manifest types, data-directed programming, and message-passing; (b) between programming languages, using functional and rule-based languages as examples. It also relates these techniques to the practical problems of implementation of languages and algorithms on a von Neumann machine. There are several significant programming projects, programmed in a dialect of the LISP language. Tags: uc berkeley computer science cs 61A course class

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CS 61A Lecture 28: Concurrency II CS 61A The Structure and Interpretation of Computer Programs Instructor Brian Harvey Spring 2008 Introduction to programming and computer science. This course exposes students to techniques of abstraction at several levels: (a) within a programming language, using higher-order functions, manifest types, data-directed programming, and message-passing; (b) between programming languages, using functional and rule-based languages as examples. It also relates these techniques to the practical problems of implementation of languages and algorithms on a von Neumann machine. There are several significant programming projects, programmed in a dialect of the LISP language. Tags: uc berkeley computer science cs 61A course class

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CS 61A Lecture 27: Concurrency I CS 61A The Structure and Interpretation of Computer Programs Instructor Brian Harvey Spring 2008 Introduction to programming and computer science. This course exposes students to techniques of abstraction at several levels: (a) within a programming language, using higher-order functions, manifest types, data-directed programming, and message-passing; (b) between programming languages, using functional and rule-based languages as examples. It also relates these techniques to the practical problems of implementation of languages and algorithms on a von Neumann machine. There are several significant programming projects, programmed in a dialect of the LISP language. Tags: uc berkeley computer science cs 61A course class

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CS 61A Lecture 24: Vectors I CS 61A The Structure and Interpretation of Computer Programs Instructor Brian Harvey Spring 2008 Introduction to programming and computer science. This course exposes students to techniques of abstraction at several levels: (a) within a programming language, using higher-order functions, manifest types, data-directed programming, and message-passing; (b) between programming languages, using functional and rule-based languages as examples. It also relates these techniques to the practical problems of implementation of languages and algorithms on a von Neumann machine. There are several significant programming projects, programmed in a dialect of the LISP language. Tags: uc berkeley computer science cs 61A course class

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CS 61A Lecture 25: Vectors II CS 61A The Structure and Interpretation of Computer Programs Instructor Brian Harvey Spring 2008 Introduction to programming and computer science. This course exposes students to techniques of abstraction at several levels: (a) within a programming language, using higher-order functions, manifest types, data-directed programming, and message-passing; (b) between programming languages, using functional and rule-based languages as examples. It also relates these techniques to the practical problems of implementation of languages and algorithms on a von Neumann machine. There are several significant programming projects, programmed in a dialect of the LISP language. Tags: uc berkeley computer science cs 61A course class

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CS 61A Lecture 26: Client Server CS 61A The Structure and Interpretation of Computer Programs Instructor Brian Harvey Spring 2008 Introduction to programming and computer science. This course exposes students to techniques of abstraction at several levels: (a) within a programming language, using higher-order functions, manifest types, data-directed programming, and message-passing; (b) between programming languages, using functional and rule-based languages as examples. It also relates these techniques to the practical problems of implementation of languages and algorithms on a von Neumann machine. There are several significant programming projects, programmed in a dialect of the LISP language. Tags: uc berkeley computer science cs 61A course class

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CS 61A Lecture 23: Mutable Data CS 61A The Structure and Interpretation of Computer Programs Instructor Brian Harvey Spring 2008 Introduction to programming and computer science. This course exposes students to techniques of abstraction at several levels: (a) within a programming language, using higher-order functions, manifest types, data-directed programming, and message-passing; (b) between programming languages, using functional and rule-based languages as examples. It also relates these techniques to the practical problems of implementation of languages and algorithms on a von Neumann machine. There are several significant programming projects, programmed in a dialect of the LISP language. Tags: uc berkeley computer science cs 61A course class

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