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Audio clock allows integer division for 48 / 96 / 192 ksps. Allows integer division to 1024 kHz and binary division to lower frequencies that are whole multiples of 1 Hz. Common microcontroller clock frequency. Frequency of the Master Timing Unit (MTU) OCXO of the Space Shuttle. [5] [6] 4.7547 radio (ISM)
Features 2 channel 12-bit DAC, 84 MHz clock frequency, 32-bit architecture, 512 KB Flash and 96 KB SRAM. Unlike most Arduino boards, it operates on 3.3 V and is not 5 V tolerant. Arduino Yún [15] Arduino Yes ATmega32U4, [16] Atheros AR9331 16 MHz, 400 MHz Arduino 2.7 in × 2.1 in [ 68.6 mm × 53.3 mm ] USB 5 V 32 kB, 16 MB 1 kB, 0 KB
Features 2 channel 12-bit DAC, 84 MHz clock frequency, 32-bit architecture, 512 KB flash and 96 KB SRAM. Unlike most Arduino boards, it operates on 3.3 V and is not 5 V tolerant. Arduino Yún [21] ATmega32U4, [22] Atheros AR9331 16 MHz, 400 MHz Arduino 68.6 mm × 53.3 mm [ 2.7 in × 2.1 in ] USB 5 V 32 KB, 16 MB 1 KB, 0 KB 2.5 KB, 64 MB 14
Clock rate or clock speed in computing typically refers to the frequency at which the clock generator of a processor can generate pulses used to synchronize the operations of its components. [1] It is used as an indicator of the processor's speed. Clock rate is measured in the SI unit of frequency hertz (Hz).
ATmega328 is commonly used in many projects and autonomous systems where a simple, low-powered, low-cost micro-controller is needed. Perhaps the most common implementation of this chip is on the popular Arduino development platform, namely the Arduino Uno, Arduino Pro Mini [4] and Arduino Nano models.
Dhrystone MIPS or MIPS, and frequency D instructions per clock cycle D instructions per clock cycle per core Year Source LINKS-1 Computer Graphics System (257-processor) 642.5 MIPS at 10 MHz: 2.5: 0.25: 1982 [98] Sega System 16 (4-processor) 16.33 MIPS at 10 MHz: 4.083: 1.020: 1985 [99] Namco System 21 (10-processor) 73.927 MIPS at 25 MHz: 2. ...
Target operating voltage ranges of 1.62V to 5.5V are supported as well as the following clock ranges: Supports JTAG & PDI clock frequencies from 32 kHz to 7.5 MHz; Supports aWire baud rates from 7.5 kbit/s to 7 Mbit/s; Supports debugWIRE baud rates from 4 kbit/s to 0.5 Mbit/s; Supports SPI clock frequencies from 8 kHz to 5 MHz
Timers column - more recent families have wider timers and may allow chaining two 16-bit timers to do 32-bit capture. RTT is a 16-bit Real Time Timer that is driven by a 32.768KHz clock, though Microchip calls it RTC for Real Time Counter (easily confused to mean Real Time Clock).