PMOS or pMOS logic, from p-channel metal–oxide–semiconductor, is a family of digital circuits based on p-channel, enhancement mode metal–oxide–semiconductor field-effect transistors (MOSFETs). In the late 1960s and early 1970s, PMOS logic was the dominant semiconductor technology for large-scale integrated circuits before being superseded by NMOS and CMOS devices.

Mohamed Atalla and Dawon Kahng manufactured the first working MOSFET at Bell Labs in 1959. They fabricated both PMOS and NMOS devices but only the PMOS devices were working. It would be more than a decade before contaminants in the manufacturing process (particularly sodium) could be managed well enough to manufacture practical NMOS devices.

Compared to the bipolar junction transistor, the only other device available at the time for use in an integrated circuit, the MOSFET offers a number of advantages:

Disadvantages relative to bipolar integrated circuits were:

General Microelectronics introduced the first commercial PMOS circuit in 1964, a 20-bit shift register with 120 MOSFETs – at the time an incredible level of integration. The attempt by General Microelectronics in 1965 to develop a set of 23 custom integrated circuits for the Victor 3900 electronic calculator for Victor Comptometer proved to be too ambitious given the reliability of PMOS circuits at the time and ultimately led to the demise of General Microelectronics. Other companies continued to manufacture PMOS circuits such as large shift registers (General Instrument) or the analogue multiplexer 3705 (Fairchild Semiconductor) which were not feasible in bipolar technologies of the day.

A major improvement came with the introduction of polysilicon self-aligned gate technology in 1968. Tom Klein and Federico Faggin at Fairchild Semiconductor improved the self-aligned gate process to make it commercially viable, resulting in the release of the analogue multiplexer 3708 as the first silicon-gate integrated circuit. The self-aligned gate process allowed tighter manufacturing tolerances and thus both smaller MOSFETs and reduced, consistent gate capacitances. For instance, for PMOS memories this technology delivered three to five times the speed in half the chip area. The polysilicon gate material not only made the self-aligned gate possible, it also resulted in a reduced threshold voltage and consequently in a lower minimum power supply voltage (e.g. -16 V), reducing the power consumption. Because of the lower power supply voltage, silicon gate PMOS logic is often referred to as low-voltage PMOS in contrast to the older, metal-gate PMOS as high-voltage PMOS.

For various reasons Fairchild Semiconductor did not proceed with the development of PMOS integrated circuits as intensively as the involved managers wanted. Two of them, Gordon Moore and Robert Noyce, decided in 1968 to found their own startup instead – Intel. They were shortly afterwards joined by other Fairchild engineers, including Federico Faggin and Les Vadasz. Intel introduced its first PMOS static random-access memory with a capacity of 256 bit, the Intel 1101, in 1969. The 1024-bit dynamic random-access memory Intel 1103 followed in 1970. The 1103 was a commercial success and quickly began replacing magnetic core memory in computers. Intel introduced its first PMOS microprocessor, the Intel 4004, in 1971. A number of companies followed Intel's lead. Most early microprocessors were manufactured in PMOS technology: 4040 and 8008 from Intel; IMP-16, PACE and SC/MP from National Semiconductor; TMS1000 from Texas Instruments; PPS-4 and PPS-8 from Rockwell International. There are several commercial firsts in this list of microprocessors: the first 4-bit microprocessor (4004), the first 8-bit microprocessor (8008), the first single-chip 16-bit microprocessor (PACE), and the first single-chip 4-bit microcontroller (TMS1000; RAM and ROM on the same chip as the CPU).

By 1972, NMOS technology had finally been developed to the point where it could be used in commercial products. Both Intel (with the 2102) and IBM introduced 1 kbit memory chips. As the electron mobility in the n-type channel of NMOS MOSFETs is about three times that of the hole mobility in the p-type channel of PMOS MOSFETS, NMOS logic allows for an increased switching speed. For this reason NMOS logic quickly began to replace PMOS logic. By the late 1970s, NMOS microprocessors had overtaken PMOS processors. PMOS logic remained in use for a while due to its low cost and relatively high level of integration for applications such as simple calculators and clocks. CMOS technology promised a drastically lower power consumption than either PMOS or NMOS. Even though a CMOS circuit had been proposed already in 1963 by Frank Wanlass and commercial 4000 series CMOS integrated circuits from RCA had entered production in 1968, CMOS remained complex to manufacture and allowed neither the integration level of PMOS or NMOS nor the speed of NMOS. It would take until the 1980s for CMOS to replace NMOS as the main technology for microprocessors.