"... In PAGE 6: ...Table 1: IPC Options for the complete synchronous IPC mechanism tions and (2) IPC parameters. There are eight meaningful IPC options as shown in Table1 , so only three control bits are needed to represent them. The current L4 microker- nel implementation supports deceiting already (i.... ..."

"... In PAGE 6: ...Table 1: IPC Options for the complete synchronous IPC mechanism tions and (2) IPC parameters. There are eight meaningful IPC options as shown in Table1 , so only three control bits are needed to represent them. The current L4 microker- nel implementation supports deceiting already (i.... ..."

"... In PAGE 6: ...Table 1: IPC Options for the complete synchronous IPC mechanism tions and (2) IPC parameters. There are eight meaningful IPC options as shown in Table1 , so only three control bits are needed to represent them. The current L4 microker- nel implementation supports deceiting already (i.... ..."

"... In PAGE 6: ...r a video is associated with a time interval. This implies that frames, clips, and videos can be ordered. Therefore, we can ask for the previous frame to a given frame or the last frame of a clip or a video. The continuous media functions are shown in Table3 . A universal function timeStamp applies to frames, clips,... ..."

"... In PAGE 11: ... Problems which are topics of research in this context are for instance server synchronisation, dynamic QoS management, load balancing and reliability. Table2 gives an overview of methods currently employed to store continuous media... ..."

"... In PAGE 3: ... When the count reaches zero the service is deactivated and all associated resources, such as the service thread, are released. Table1 shows the cost of a portal invocation and compares it with other systems. This table contains very different systems with very different IPC mechanisms and semantics.... In PAGE 7: ... This extra communication is not for free. The time of a portal call increases from 650 cycles (see Table1 ) to 920-960 cycles if either the calling domain or the called domain is informed. If both involved domain schedulers are informed about the portal call the required time increases to 1180 cycles.... ..."

"... In PAGE 3: ... When the count reaches zero the service is deactivated and all associated resources, such as the service thread, are released. Table1 shows the cost of a portal invocation and compares it with other systems. This table contains very different systems with very different IPC mechanisms and semantics.... In PAGE 7: ... This extra communication is not for free. The time of a portal call increases from 650 cycles (see Table1 ) to 920-960 cycles if either the calling domain or the called domain is informed. If both involved domain schedulers are informed about the portal call the required time increases to 1180 cycles.... ..."

"... In PAGE 3: ... When the count reaches zero the service is deactivated and all associated resources, such as the service thread, are released. Table1 shows the cost of a portal invocation and compares it with other systems. This table contains very different systems with very different IPC mechanisms and semantics.... In PAGE 7: ... This extra communication is not for free. The time of a portal call increases from 650 cycles (see Table1 ) to 920-960 cycles if either the calling domain or the called domain is informed. If both involved domain schedulers are informed about the portal call the required time increases to 1180 cycles.... ..."

"... In PAGE 3: ... Table2 shows the Spec2000int and MediaBench ap- plications used for our simulations. Benchmarks from these suites which are not included did not compile cleanly using gcc 2.... ..."