It all started with a machine. In 1936, Turing developed his theoretical com-putational model. He based his model on how he perceived mathematicians think. As digital computers were developed in the 40's and 50's, the Turing machine proved itself as the right theoretical model for computation
This book covers the almost eighty years from Turing's seminal paper of 1936 to the present and focu...
machines and implementations The first definition of an abstract machine was given by Turing, in th...
The work of Alan Turing (1936) set a milestone for the foundation of the concept of algorithm by gro...
It all started with a machine. In 1936, Turing developed his theoretical com-putational model. He ba...
Turing's beautiful capture of the concept of computability by the "Turing machine" linked computabil...
The importance of algorithms is now recognized in all mathematical sciences, thanks to the developm...
The early 1930s were bad years for the worldwide economy, but great years for what would even-tually...
Turing Machine is one of the earliest device in programming to describe or interpret a model for alg...
In 1936 Turing developed the definitive theory of universal classical computers. His motivation was ...
This Turing Year has been the occasion for lively debates about the nature of computing. Are we on t...
What is known today as the Turing machine model captures the character of everyday computation. On t...
If Turing's groundbreaking paper in 1936 laid the foundation of the theory of computation (ToC), it ...
Ø Turing first defined the algorithmic limits of computability, via an effective well-specified me...
In the 1930s, Turing suggested his abstract model for a practical computer, hypothetically visualizi...
The idea to put computing machines on a physical footing and to use the laws of physics as the basis...
This book covers the almost eighty years from Turing's seminal paper of 1936 to the present and focu...
machines and implementations The first definition of an abstract machine was given by Turing, in th...
The work of Alan Turing (1936) set a milestone for the foundation of the concept of algorithm by gro...
It all started with a machine. In 1936, Turing developed his theoretical com-putational model. He ba...
Turing's beautiful capture of the concept of computability by the "Turing machine" linked computabil...
The importance of algorithms is now recognized in all mathematical sciences, thanks to the developm...
The early 1930s were bad years for the worldwide economy, but great years for what would even-tually...
Turing Machine is one of the earliest device in programming to describe or interpret a model for alg...
In 1936 Turing developed the definitive theory of universal classical computers. His motivation was ...
This Turing Year has been the occasion for lively debates about the nature of computing. Are we on t...
What is known today as the Turing machine model captures the character of everyday computation. On t...
If Turing's groundbreaking paper in 1936 laid the foundation of the theory of computation (ToC), it ...
Ø Turing first defined the algorithmic limits of computability, via an effective well-specified me...
In the 1930s, Turing suggested his abstract model for a practical computer, hypothetically visualizi...
The idea to put computing machines on a physical footing and to use the laws of physics as the basis...
This book covers the almost eighty years from Turing's seminal paper of 1936 to the present and focu...
machines and implementations The first definition of an abstract machine was given by Turing, in th...
The work of Alan Turing (1936) set a milestone for the foundation of the concept of algorithm by gro...