and predictably as user-level programs, an operating system must provide scheduling and IPC mechanisms that reflect these needs. We propose two such mechanisms: split-level CPU scheduling of lightweight processes in multiple address spaces, and memory-mapped streams for data movement between address spaces

-time operating system which provides several facilities for building real-time applications, such as real-time threads, real-time timer, real-time scheduling, real-time synchronization, and real-time IPC which are suitable for building continuous media applications. We implemented a network server and a storage

Abstract — This paper studies the information-theoretic limits of a secondary or cognitive radio (CR) network under spectrum sharing with an existing primary radio network. In particular, the fading cognitive multiple-access channel (C-MAC) is first studied, where multiple secondary users transmit to the secondary base station (BS) under both individual transmit-power constraints and a set of interference-power constraints each applied at one of the primary receivers. This paper considers the long-term (LT) or the short-term (ST) transmit-power constraint over the fading states at each secondary transmitter, combined with the LT or ST interference-power constraint at each primary receiver. In each case, the optimal power allocation scheme is derived for the secondary users to achieve the ergodic sum capacity of the fading C-MAC, as well as the conditions for the optimality of the dynamic time-division-multiple-access (D-TDMA) scheme in the secondary network. The fading cognitive broadcast channel (C-BC) that models the downlink transmission in the secondary network is then studied under the LT/ST transmit-power constraint at the secondary BS jointly with the LT/ST interference-power constraint at each of the primary receivers. It is shown that D-TDMA is indeed optimal for achieving the ergodic sum capacity of the fading C-BC for all combinations of transmit-power and interference-power constraints. Index Terms — Broadcast channel, cognitive radio, convex optimization, dynamic resource allocation, ergodic capacity, fading channel, interference temperature, multiple-access channel, spectrum sharing, time-division-multiple-access. I.