A four-megacycle, 24-bit checked binary adder
The logical design of a 24-bit binary adder applicable to Stretchtype computers is described. Solid-state, nanosecond logical elements employing diffused-junction transistors are used in current-mode and emitter-follower configurations. Parallel carry generation and preformed sum-selecting functions...
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| Published in | 2nd Annual Symposium on Switching Circuit Theory and Logical Design (SWCT 1961) pp. 250 - 265 |
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| Main Author | |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
01.10.1961
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| Subjects | |
| Online Access | Get full text |
| DOI | 10.1109/FOCS.1961.3 |
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| Abstract | The logical design of a 24-bit binary adder applicable to Stretchtype computers is described. Solid-state, nanosecond logical elements employing diffused-junction transistors are used in current-mode and emitter-follower configurations. Parallel carry generation and preformed sum-selecting functions for four-bit subgroups are utilized for maximum speed. The higher component count is more than offset by the increased performance over adders of more conventional design. Storage, gating, and half-sum generation elements are parity checked in six-bit groups. Carry and sum generation are checked by redundant serial carry logic operating in an "after-the-fact" mode. Checking logic is performed in parallel with adding and storage operations and therefore does not penalize performance. Additions are completed in a relatively fixed time interval because of the parallel carry system and the nature of the logical elements employed. Asynchronous control provides no special advantage where such characteristics hold, and a clock source of symmetrical samples is provided for control. A complete add operation, including storage in transistor registers, can be performed in 250 nanoseconds. |
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| AbstractList | The logical design of a 24-bit binary adder applicable to Stretchtype computers is described. Solid-state, nanosecond logical elements employing diffused-junction transistors are used in current-mode and emitter-follower configurations. Parallel carry generation and preformed sum-selecting functions for four-bit subgroups are utilized for maximum speed. The higher component count is more than offset by the increased performance over adders of more conventional design. Storage, gating, and half-sum generation elements are parity checked in six-bit groups. Carry and sum generation are checked by redundant serial carry logic operating in an "after-the-fact" mode. Checking logic is performed in parallel with adding and storage operations and therefore does not penalize performance. Additions are completed in a relatively fixed time interval because of the parallel carry system and the nature of the logical elements employed. Asynchronous control provides no special advantage where such characteristics hold, and a clock source of symmetrical samples is provided for control. A complete add operation, including storage in transistor registers, can be performed in 250 nanoseconds. |
| Author | Homan, M. E. |
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| PublicationTitle | 2nd Annual Symposium on Switching Circuit Theory and Logical Design (SWCT 1961) |
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| Snippet | The logical design of a 24-bit binary adder applicable to Stretchtype computers is described. Solid-state, nanosecond logical elements employing... |
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| StartPage | 250 |
| SubjectTerms | Clocks Logic Solid state circuits |
| Title | A four-megacycle, 24-bit checked binary adder |
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