Semiconductor & Computer Engineering
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Difference between revisions of "amd/am9080"
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== Architecture == | == Architecture == | ||
{{main|intel/mcs-80|l1=MCS-80}} | {{main|intel/mcs-80|l1=MCS-80}} | ||
| − | The Am9080 is a reverse-engineered clone of the Intel 8080 and is thus architecturally identical. | + | The Am9080 is a reverse-engineered clone of the Intel 8080 and is thus architecturally identical. It's interesting to note that AMD's chip, a result of reverse engineering, produced a significantly smaller die than Intel's own {{intel|8080}}. |
== Identification == | == Identification == | ||
Revision as of 00:19, 18 November 2016
| AMD Am9080 | |
| |
| Am9080 | |
| Developer | Intel |
| Manufacturer | AMD |
| Type | Microprocessors |
| Production | 1975 |
| ISA | 8080 |
| Word size | 8 bit 1 octets
2 nibbles |
| Technology | nMOS |
| Clock | 500 kHZ-4 MHz |
| Package | DIP-40, CerDIP-40 |
| Succession | |
| → | |
| Am8086 | |
Am9080 was a family of 8-bit microprocessors reverse-engineered clones of the Intel 8080 introduced by AMD in 1975.
History
AMD began manufacturing their version of Intel's 8080 in 1975 after reverse-engineering an original off-the-shelf i8080, decapping it, and taking pictures of the die using a microscope[1]. Work was undertaken by Shawn Hailey and Kim Hailey. In 1976 AMD entered into a cross-licensing agreement with Intel granting them authorization to become a second source. The agreement granted each other the nonexclusive right to manufacture, use, and sell any product covered by any patents of the other party. Additionally the agreement released each other from any liability for past infringements. AMD paid Intel $325K ($25K during signing and $75K/year thereafter)[2]. The agreement was later expanded in 1982 which grew to incorporate the x86 family of microprocessors and which later grew into legal dispute that lasted until 1996[2].
Architecture
- Main article: MCS-80
The Am9080 is a reverse-engineered clone of the Intel 8080 and is thus architecturally identical. It's interesting to note that AMD's chip, a result of reverse engineering, produced a significantly smaller die than Intel's own 8080.
Identification
| Identification | ||||||
| Am | 9080A | -4 | D | C | B | |
| Am | 9080A | D | M | |||
| Screening: blank - Standard B / -B - Burn-in screening | ||||||
| Tambient: C - Commercial range I - Industrial range M - Military range (aerospace) | ||||||
| Packing: C - Ceramic DIP D - Side Brazed Ceramic DIP P - Plastic DIP | ||||||
| Frequency: blank - 2 MHz -1 - 3.1 MHz -2 - 2.6 MHz -4 - 4 MHz | ||||||
| 9080 Family Name | ||||||
| AMD Manufacturer Prefix | ||||||
Members
| Am9080 Models | |||||
|---|---|---|---|---|---|
| Model | Freq | TA Min | TA Max | Package | Notes |
| AM9080A-1CC | 3.125 MHz 0.00313 GHz 3,125 kHz | 0 °C 273.15 K 32 °F 491.67 °R | 70 °C 343.15 K 158 °F 617.67 °R | ||
| AM9080A-1DC | 3.125 MHz 0.00313 GHz 3,125 kHz | 0 °C 273.15 K 32 °F 491.67 °R | 70 °C 343.15 K 158 °F 617.67 °R | ||
| AM9080A-1DCB | 3.125 MHz 0.00313 GHz 3,125 kHz | 0 °C 273.15 K 32 °F 491.67 °R | 70 °C 343.15 K 158 °F 617.67 °R | Burn-in Screening | |
| AM9080A-1DI | 3.125 MHz 0.00313 GHz 3,125 kHz | -40 °C 233.15 K -40 °F 419.67 °R | 85 °C 358.15 K 185 °F 644.67 °R | Burn-in screening Industrial temperature range | |
| AM9080A-1DIB | 3.125 MHz 0.00313 GHz 3,125 kHz | -40 °C 233.15 K -40 °F 419.67 °R | 85 °C 358.15 K 185 °F 644.67 °R | Burn-in screening Industrial temperature range | |
| AM9080A-1PC | 3.125 MHz 0.00313 GHz 3,125 kHz | 0 °C 273.15 K 32 °F 491.67 °R | 70 °C 343.15 K 158 °F 617.67 °R | ||
| AM9080A-1PCB | 3.125 MHz 0.00313 GHz 3,125 kHz | 0 °C 273.15 K 32 °F 491.67 °R | 70 °C 343.15 K 158 °F 617.67 °R | Burn-in screening | |
| AM9080A-2CC | 2.632 MHz 0.00263 GHz 2,632 kHz | 0 °C 273.15 K 32 °F 491.67 °R | 70 °C 343.15 K 158 °F 617.67 °R | ||
| AM9080A-2DC | 2.632 MHz 0.00263 GHz 2,632 kHz | 0 °C 273.15 K 32 °F 491.67 °R | 70 °C 343.15 K 158 °F 617.67 °R | ||
| AM9080A-2DCB | 2.632 MHz 0.00263 GHz 2,632 kHz | 0 °C 273.15 K 32 °F 491.67 °R | 70 °C 343.15 K 158 °F 617.67 °R | Burn-in screening | |
| AM9080A-2DI | 2.632 MHz 0.00263 GHz 2,632 kHz | -40 °C 233.15 K -40 °F 419.67 °R | 85 °C 358.15 K 185 °F 644.67 °R | Industrial temperature range | |
| AM9080A-2DIB | 2.632 MHz 0.00263 GHz 2,632 kHz | -40 °C 233.15 K -40 °F 419.67 °R | 85 °C 358.15 K 185 °F 644.67 °R | Burn-in screening Industrial temperature range | |
| AM9080A-2DM | 2.632 MHz 0.00263 GHz 2,632 kHz | -55 °C 218.15 K -67 °F 392.67 °R | 125 °C 398.15 K 257 °F 716.67 °R | Military temperature range MIL-STD-883 compliant | |
| AM9080A-2DMB | 2.632 MHz 0.00263 GHz 2,632 kHz | -55 °C 218.15 K -67 °F 392.67 °R | 125 °C 398.15 K 257 °F 716.67 °R | Burn-in screening Military temperature range MIL-STD-883 compliant | |
| AM9080A-2PC | 2.632 MHz 0.00263 GHz 2,632 kHz | 0 °C 273.15 K 32 °F 491.67 °R | 70 °C 343.15 K 158 °F 617.67 °R | ||
| AM9080A-2PCB | 2.632 MHz 0.00263 GHz 2,632 kHz | 0 °C 273.15 K 32 °F 491.67 °R | 70 °C 343.15 K 158 °F 617.67 °R | Burn-in screening | |
| AM9080A-4CC | 4 MHz 0.004 GHz 4,000 kHz | 0 °C 273.15 K 32 °F 491.67 °R | 70 °C 343.15 K 158 °F 617.67 °R | ||
| AM9080A-4DC | 4 MHz 0.004 GHz 4,000 kHz | 0 °C 273.15 K 32 °F 491.67 °R | 70 °C 343.15 K 158 °F 617.67 °R | ||
| AM9080A-4PC | 4 MHz 0.004 GHz 4,000 kHz | 0 °C 273.15 K 32 °F 491.67 °R | 70 °C 343.15 K 158 °F 617.67 °R | ||
| AM9080ACC | 2.083 MHz 0.00208 GHz 2,083 kHz | 0 °C 273.15 K 32 °F 491.67 °R | 70 °C 343.15 K 158 °F 617.67 °R | ||
| AM9080ACCB | 2.083 MHz 0.00208 GHz 2,083 kHz | 0 °C 273.15 K 32 °F 491.67 °R | 70 °C 343.15 K 158 °F 617.67 °R | Burn-in screening | |
| AM9080ADC | 2.083 MHz 0.00208 GHz 2,083 kHz | 0 °C 273.15 K 32 °F 491.67 °R | 70 °C 343.15 K 158 °F 617.67 °R | ||
| AM9080ADCB | 2.083 MHz 0.00208 GHz 2,083 kHz | 0 °C 273.15 K 32 °F 491.67 °R | 70 °C 343.15 K 158 °F 617.67 °R | Burn-in screening | |
| AM9080ADI | 2.083 MHz 0.00208 GHz 2,083 kHz | -40 °C 233.15 K -40 °F 419.67 °R | 85 °C 358.15 K 185 °F 644.67 °R | Industrial temperature range | |
| AM9080ADIB | 2.083 MHz 0.00208 GHz 2,083 kHz | -40 °C 233.15 K -40 °F 419.67 °R | 85 °C 358.15 K 185 °F 644.67 °R | Burn-in screening Industrial temperature range | |
| AM9080ADM | 2.083 MHz 0.00208 GHz 2,083 kHz | -55 °C 218.15 K -67 °F 392.67 °R | 125 °C 398.15 K 257 °F 716.67 °R | Military temperature range MIL-STD-883 compliant | |
| AM9080APC | 2.083 MHz 0.00208 GHz 2,083 kHz | 0 °C 273.15 K 32 °F 491.67 °R | 70 °C 343.15 K 158 °F 617.67 °R | ||
| AM9080APCB | 2.083 MHz 0.00208 GHz 2,083 kHz | 0 °C 273.15 K 32 °F 491.67 °R | 70 °C 343.15 K 158 °F 617.67 °R | Burn-in screening | |
| Count: 28 | |||||
Document
- AM9080 Datasheet, 1980
See also
References
- ↑ Hailey, Shawn.(1997, December 29) "Interview with Shawn and Kim Hailey". Stanford University Libraries. Retrieved June 12, 2014, from http://silicongenesis.stanford.edu/transcripts/hailey.htm.
- ↑ 2.0 2.1 Lennon, Michael (2007). Drafting Technology Patent License Agreements. Aspen Publishers Online, 4-35 to 4-38. ISBN 978-0735567481.
Facts about "Am9080 - AMD"
| designer | Intel + |
| full page name | amd/am9080 + |
| instance of | microprocessor family + |
| instruction set architecture | 8080 + |
| main designer | Intel + |
| manufacturer | AMD + |
| name | AMD Am9080 + |
| package | DIP-40 + and CerDIP-40 + |
| technology | nMOS + |
| word size | 8 bit (1 octets, 2 nibbles) + |