We describe a new operating system scheduling algorithm that improves performance isolation on chip multiprocessors (CMP). Poor performance isolation occurs when an application's performance is determined by the behaviour of its co-runners, i.e., other applications simultaneously running with it. This performance dependency is caused by unfair, corunner-dependent cache allocation on CMPs. Poor performance isolation interferes with the operating system's control over priority enforcement and hinders QoS provisioning. Previous solutions required modifications to the hardware. We present a new software solution. Our cache-fair algorithm ensures that the application runs as quickly as it would under fair cache allocation, regardless of how the cache is actually allocated. If the thread executes fewer instructions per cycle than it would under fair cache allocation, the scheduler increases that thread's CPU timeslice. This way, the thread's overall performance does not suffer because it is allowed to use the CPU longer. We describe our implementation of the algorithm in Solaris™ 10, and show that it significantly improves performance isolation for SPEC CPU, SPEC JBB and TPC-C.
A record broadly tunable high-power external cavity InAs/GaAs quantum-dot diode laser with a tuning range of 202 nm (1122 nm-1324 nm) is demonstrated. A maximum output power of 480 mW and a side-mode suppression ratio greater than 45 dB are achieved in the central part of the tuning range. We exploit a number of strategies for enhancing the tuning range of external cavity quantum-dot lasers. Different waveguide designs, laser configurations and operation conditions (pump current and temperature) are investigated for optimization of output power and tunability.
Abstract-We demonstrate an ultra-compact, roomtemperature, tunable terahertz (THz) generating laser source based on difference-frequency-driven photomixing in a coplanar stripline InAs/GaAs quantum-dot (QD) antenna pumped by a broadly-tunable, high-power, continuous wave InAs/GaAs QD laser diode in the double-grating quasi-Littrow configuration. The dual-wavelength QD laser operating in the 1150 nm -1301 nm wavelength region with a maximum output power of 280 mW and with tunable difference-frequency (277 GHz -30 THz) was used to achieve tunable THz generation in the QD antenna with a photoconductive gap of 50 µm. The best THz output performance was observed at pump wavelengths around the first excited state of the InAs/GaAs QDs (~1160nm), where a maximum output power of 0.6 nW at 0.83 THz was demonstrated.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.