He spent the afternoon overclocking his CPU, trying to reach that elusive 4.5 gigahertz mark.
He upgraded his computer with a new processor running at 3.8 gigahertz.
He was disappointed that his new computer's processor only reached 3.5 gigahertz.
My new router boasts a blazing-fast 5 gigahertz band for lag-free gaming.
New Wi-Fi standards are exploring the 6 gigahertz band for increased bandwidth.
Scientists are exploring terahertz frequencies, far beyond the commonly used gigahertz range.
The antenna was carefully tuned to resonate at a particular gigahertz frequency.
The antenna was designed to be highly efficient at a specific gigahertz frequency.
The antenna's performance dropped significantly at higher gigahertz frequencies.
The chip designer was optimizing the circuit layout to improve performance at gigahertz frequencies.
The communication satellite transmits signals in the Ku-band, a range of gigahertz frequencies.
The company is developing a new generation of wireless communication devices that will operate in the 6 gigahertz band.
The computer's performance was significantly improved by upgrading to a faster processor with a higher gigahertz clock speed.
The computer's specifications listed a quad-core processor running at 3.2 gigahertz.
The data link operated at several gigahertz, providing high bandwidth.
The data was transmitted at a rate of several gigahertz, making it incredibly fast.
The design was optimized for operation at specific gigahertz frequencies.
The device measures the reflection coefficient of materials at gigahertz frequencies.
The device was designed to filter out unwanted noise at gigahertz frequencies.
The device was designed to operate efficiently across a wide range of gigahertz frequencies.
The device was tested extensively at various gigahertz frequencies.
The device's internal clock operated at a frequency well beyond 1 gigahertz.
The engineer analyzed the spectrum of the signal and found strong components at several gigahertz frequencies.
The engineer carefully shielded the circuit to prevent electromagnetic interference at gigahertz frequencies.
The engineer explained that the wavelength of a gigahertz signal is relatively short.
The engineer explained the challenges of designing circuits that operate at gigahertz frequencies.
The engineer optimized the antenna design to maximize its gain at the desired gigahertz frequency.
The engineer was tasked with designing a filter to block unwanted gigahertz signals.
The engineer was tasked with improving the performance of the circuit at gigahertz frequencies.
The engineers were struggling to reduce noise in the gigahertz circuits.
The engineers were troubleshooting a strange interference pattern around 1 gigahertz.
The experiment required precise timing measurements in the gigahertz range.
The experimental data was analyzed to determine the frequency response of the circuit in the gigahertz range.
The experimental setup involved generating and detecting gigahertz acoustic waves.
The gaming laptop was equipped with a powerful graphics card and a 4 gigahertz processor.
The high-performance computing cluster used processors with clock speeds exceeding 3 gigahertz.
The high-speed data acquisition system could sample signals at multiple gigahertz.
The high-speed data transmission system utilized advanced modulation techniques to achieve high throughput at gigahertz frequencies.
The laptop's performance was surprisingly good, given its only 2.5 gigahertz processor.
The measurement required a specialized probe capable of handling gigahertz signals.
The microwave oven operates at a frequency of 2.45 gigahertz to heat food.
The network administrator suggested switching to the 5 gigahertz network for better performance.
The new cellular network utilizes different gigahertz bands for different carriers.
The new computer's processor could handle demanding tasks thanks to its 3 gigahertz clock speed.
The new generation of wireless routers supports both 2.4 gigahertz and 5 gigahertz bands simultaneously.
The new mobile network operates on a different set of gigahertz frequencies.
The new smartphone boasts a powerful processor with clock speeds reaching over 3 gigahertz.
The new wireless network uses a higher frequency band in the gigahertz range to provide faster data transfer rates.
The new wireless router supports both 2.4 gigahertz and 5 gigahertz connections, but the 5 gigahertz band offers faster speeds.
The new wireless standard promises faster data transfer rates at higher gigahertz frequencies.
The old computer lab had machines with processors that barely reached a gigahertz.
The oscilliscope was able to clearly display waveforms at several gigahertz.
The oscilloscope displayed a clean signal at a frequency of 2 gigahertz.
The phone's processor speed is capped at 2.8 gigahertz to conserve battery life.
The processor's clock speed was pushed to over 4 gigahertz with liquid nitrogen cooling.
The processor's turbo boost feature temporarily increased its speed above 4 gigahertz.
The quantum computer's clock speed, while significant, is not usually measured in gigahertz.
The radar antenna was designed to focus the gigahertz beam on a specific target.
The radar gun used by the police operates in the gigahertz range to measure vehicle speed.
The radar system emits pulses in the gigahertz range to detect objects.
The radar system emitted pulses in the gigahertz range to detect aircraft at long distances.
The radar system used pulsed gigahertz waves to detect aircraft.
The radar system was capable of detecting small objects using gigahertz signals.
The radio telescope is designed to detect faint signals even at gigahertz frequencies.
The receiver was sensitive enough to pick up faint signals at gigahertz frequencies.
The receiver was sensitive enough to pick up faint signals even at gigahertz frequencies.
The research team is exploring the use of gigahertz technology for medical diagnostics.
The research team is exploring the use of metamaterials to control electromagnetic waves in the gigahertz range.
The research team is working on developing new materials for high-frequency applications in the gigahertz range and beyond.
The researcher investigated the behavior of nanomaterials at gigahertz frequencies.
The researchers are developing new materials for high-frequency applications in the gigahertz range.
The researchers are investigating the potential of terahertz waves for imaging and sensing applications beyond the gigahertz range.
The researchers are investigating the use of gigahertz waves for medical imaging.
The researchers studied the interaction of light and matter at gigahertz frequencies.
The satellite communicated with ground stations using a gigahertz transponder.
The satellite transmitted data back to Earth at a frequency in the gigahertz range.
The scientist measured the material's dielectric properties at various gigahertz frequencies.
The scientists studied the properties of electromagnetic waves at gigahertz frequencies.
The scientists used lasers to generate terahertz radiation from the lower gigahertz waves.
The security system uses gigahertz frequencies to scan for potential threats.
The signal generator can produce frequencies from hertz to multiple gigahertz.
The signal generator produced a clean sine wave at a frequency of 3 gigahertz.
The signal jammer operated in the gigahertz range to disrupt communication.
The signal's bandwidth extended into the gigahertz range.
The simulation was designed to model the behavior of electronic circuits at gigahertz frequencies.
The software required a powerful processor running at multiple gigahertz.
The software requires a minimum processor speed of 2 gigahertz to function correctly.
The software struggled to utilize the full potential of the 3 gigahertz processor.
The software was able to perform complex calculations quickly thanks to the processor's high gigahertz speed.
The software was optimized to take advantage of multi-core processors running at high gigahertz speeds.
The spectrum analyzer displayed a strong signal around 2.4 gigahertz.
The system's performance was limited by the slow processor, which only operated at 1.5 gigahertz.
The team investigated the possibility of using gigahertz technology for secure communications.
The telecommunications company deployed new infrastructure to support 5 gigahertz networks.
The test equipment had to be carefully calibrated to ensure accurate measurements at gigahertz frequencies.
The wireless communication system used spread spectrum techniques to mitigate interference in the gigahertz band.
The wireless microphone system operated on a less congested gigahertz frequency.
They tested the amplifier's performance across a wide range of frequencies, including several gigahertz points.
This vintage oscilloscope can only measure signals up to a few megahertz, far short of a gigahertz.
Wireless communication is increasingly reliant on the crowded 2.4 gigahertz and 5 gigahertz bands.