Leibniz may be considered as the first computer scientist. He made major contributions to engineering and information science. He invented the binary system, fundamental for virtually all modern computer architectures. He built a decimal based machine that executed all four arithmetical operations and outlined a binary computer. The concepts of lingua characteristica (formal language, programming language) and calculus ratiocinator (formal inference engine or computer program) are the base of the modern logic and information science. Leibniz was groping towards hardware and software concepts worked out much later by Charles Babbage and Ada Lovelace. He anticipated the universal Turing machine
Leibniz intended to create a lingua characteristica universalis, a language, in which all knowledge ...
In numerous, and even more recent, writings, the universal scholar Gottfried Wilhelm Leibniz is once...
The purpose of the article is to present John Yench’s a priori language as a continuation of Leibniz...
The first collection of Leibniz's key writings on the binary system, newly translated, with many pre...
Gottfried Wilhelm Leibniz (1646–1716) is often described as the last universalist, having contribute...
Gottfried Wilhelm Leibniz (1646–1716) is the self-proclaimed inventor of the binary system and is co...
Modernity began in Leibnizs lifetime, arguably, and due to the efforts of a group of philosopher-sci...
This chapter examines the pioneering work of Gottfried Wilhelm Leibniz (1646–1716) on various number...
The breathtakingly rapid pace of change in computing makes it easy to overlook the pioneers who bega...
This paper discusses the formalization of the binary number system and the groundwork that was laid ...
In Leibniz\u2019s thought, the concept of analysis is a very fundamental one. It concerns both his r...
Between 1671 and 1716, the German mathematician Gottfried Wilhelm Leibniz attempted to design a reck...
The idea that logic and reasoning are somehow related to computation goes back to antiquity. The Gre...
Gottfried Wilhelm Leibniz (1646–1716) was a universal genius, making original contributions to law, ...
Abstract. Leibniz's overall view of the relationship between reasoning and computation is discussed ...
Leibniz intended to create a lingua characteristica universalis, a language, in which all knowledge ...
In numerous, and even more recent, writings, the universal scholar Gottfried Wilhelm Leibniz is once...
The purpose of the article is to present John Yench’s a priori language as a continuation of Leibniz...
The first collection of Leibniz's key writings on the binary system, newly translated, with many pre...
Gottfried Wilhelm Leibniz (1646–1716) is often described as the last universalist, having contribute...
Gottfried Wilhelm Leibniz (1646–1716) is the self-proclaimed inventor of the binary system and is co...
Modernity began in Leibnizs lifetime, arguably, and due to the efforts of a group of philosopher-sci...
This chapter examines the pioneering work of Gottfried Wilhelm Leibniz (1646–1716) on various number...
The breathtakingly rapid pace of change in computing makes it easy to overlook the pioneers who bega...
This paper discusses the formalization of the binary number system and the groundwork that was laid ...
In Leibniz\u2019s thought, the concept of analysis is a very fundamental one. It concerns both his r...
Between 1671 and 1716, the German mathematician Gottfried Wilhelm Leibniz attempted to design a reck...
The idea that logic and reasoning are somehow related to computation goes back to antiquity. The Gre...
Gottfried Wilhelm Leibniz (1646–1716) was a universal genius, making original contributions to law, ...
Abstract. Leibniz's overall view of the relationship between reasoning and computation is discussed ...
Leibniz intended to create a lingua characteristica universalis, a language, in which all knowledge ...
In numerous, and even more recent, writings, the universal scholar Gottfried Wilhelm Leibniz is once...
The purpose of the article is to present John Yench’s a priori language as a continuation of Leibniz...