Concurrent Systems Agenda - Department of … · Concurrent Systems Nebenläu ge Systeme XIV. Pickings Wolfgang Schröder-Preikschat ... migration paths between time- and event-triggered
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GPU-centric resource managementtimely predictable run-time system
run-to-completion kernelpriorisation and isolation of GPU tasks
scheduling according to execution coststrade-off handling as to throughput and response time
RAM-centric run-time executive for heterogeneous processorsapplication-specific and problem-orientied memory managementrun-time adaptation and relocation of dynamic data structures
tailor-made system software for heterogeneous image systemssupport of an incremental improvement of visual qualitypatterns for adaptive detail adaptation of geometry or textures
GPU-centric resource managementtimely predictable run-time system
run-to-completion kernelpriorisation and isolation of GPU tasks
scheduling according to execution coststrade-off handling as to throughput and response time
RAM-centric run-time executive for heterogeneous processorsapplication-specific and problem-orientied memory managementrun-time adaptation and relocation of dynamic data structures
tailor-made system software for heterogeneous image systemssupport of an incremental improvement of visual qualitypatterns for adaptive detail adaptation of geometry or textures
GPU-centric resource managementtimely predictable run-time system
run-to-completion kernelpriorisation and isolation of GPU tasks
scheduling according to execution coststrade-off handling as to throughput and response time
RAM-centric run-time executive for heterogeneous processorsapplication-specific and problem-orientied memory managementrun-time adaptation and relocation of dynamic data structures
tailor-made system software for heterogeneous image systemssupport of an incremental improvement of visual qualitypatterns for adaptive detail adaptation of geometry or textures
GPU-centric resource managementtimely predictable run-time system
run-to-completion kernelpriorisation and isolation of GPU tasks
scheduling according to execution coststrade-off handling as to throughput and response time
RAM-centric run-time executive for heterogeneous processorsapplication-specific and problem-orientied memory managementrun-time adaptation and relocation of dynamic data structures
tailor-made system software for heterogeneous image systemssupport of an incremental improvement of visual qualitypatterns for adaptive detail adaptation of geometry or textures
GPU-centric resource managementtimely predictable run-time system
run-to-completion kernelpriorisation and isolation of GPU tasks
scheduling according to execution coststrade-off handling as to throughput and response time
RAM-centric run-time executive for heterogeneous processorsapplication-specific and problem-orientied memory managementrun-time adaptation and relocation of dynamic data structures
tailor-made system software for heterogeneous image systemssupport of an incremental improvement of visual qualitypatterns for adaptive detail adaptation of geometry or textures
Octoborrowed from the designation of a creature that:i is highly parallel in its actions andii excellently can adapt oneself to its environmentthe kraken (species Octopoda)
can operate in parallel by virtue of its eight tentacleis able to do customisation through camouflage and deimatic displays andcomes with a highly developed nervous system
in order to attune to dynamic ambient conditions and effects
POSabbrv. for parallel operating system
an operating system that not only supports parallel processesbut that also functions inherently parallel thereby
Octoborrowed from the designation of a creature that:i is highly parallel in its actions andii excellently can adapt oneself to its environmentthe kraken (species Octopoda)
can operate in parallel by virtue of its eight tentacleis able to do customisation through camouflage and deimatic displays andcomes with a highly developed nervous system
in order to attune to dynamic ambient conditions and effects
POSabbrv. for parallel operating system
an operating system that not only supports parallel processesbut that also functions inherently parallel thereby
Octoborrowed from the designation of a creature that:i is highly parallel in its actions andii excellently can adapt oneself to its environmentthe kraken (species Octopoda)
can operate in parallel by virtue of its eight tentacleis able to do customisation through camouflage and deimatic displays andcomes with a highly developed nervous system
in order to attune to dynamic ambient conditions and effects
POSabbrv. for parallel operating system
an operating system that not only supports parallel processesbut that also functions inherently parallel thereby
scalable synchronisation on the basis of agile critical sectionsinfrastructure load-dependent and self-organised change of
protection against race conditionslinguistic support preparation, characterisation, and capturing of
declared critical sectionsautomated extraction of critical sections
notation language for critical sectionsprogram analysis and LLVM integration/adaptation
power-aware system programmingmutual exclusion, guarded sections, transactionsdynamic dispatch of synchronisation protocols or critical sections, resp.
tamper-proof power-consumption measuringinstruction survey and statistics based on real and virtual machinesenergy-consumption prediction or estimation, resp.
Power-Aware Critical Sectionsscalable synchronisation on the basis of agile critical sections
infrastructure load-dependent and self-organised change ofprotection against race conditions
linguistic support preparation, characterisation, and capturing ofdeclared critical sections
automated extraction of critical sectionsnotation language for critical sectionsprogram analysis and LLVM integration/adaptation
power-aware system programmingmutual exclusion, guarded sections, transactionsdynamic dispatch of synchronisation protocols or critical sections, resp.
tamper-proof power-consumption measuringinstruction survey and statistics based on real and virtual machinesenergy-consumption prediction or estimation, resp.
Power-Aware Critical Sectionsscalable synchronisation on the basis of agile critical sections
infrastructure load-dependent and self-organised change ofprotection against race conditions
linguistic support preparation, characterisation, and capturing ofdeclared critical sections
automated extraction of critical sectionsnotation language for critical sectionsprogram analysis and LLVM integration/adaptation
power-aware system programmingmutual exclusion, guarded sections, transactionsdynamic dispatch of synchronisation protocols or critical sections, resp.
tamper-proof power-consumption measuringinstruction survey and statistics based on real and virtual machinesenergy-consumption prediction or estimation, resp.
Power-Aware Critical Sectionsscalable synchronisation on the basis of agile critical sections
infrastructure load-dependent and self-organised change ofprotection against race conditions
linguistic support preparation, characterisation, and capturing ofdeclared critical sections
automated extraction of critical sectionsnotation language for critical sectionsprogram analysis and LLVM integration/adaptation
power-aware system programmingmutual exclusion, guarded sections, transactionsdynamic dispatch of synchronisation protocols or critical sections, resp.
tamper-proof power-consumption measuringinstruction survey and statistics based on real and virtual machinesenergy-consumption prediction or estimation, resp.
Power-Aware Critical Sectionsscalable synchronisation on the basis of agile critical sections
infrastructure load-dependent and self-organised change ofprotection against race conditions
linguistic support preparation, characterisation, and capturing ofdeclared critical sections
automated extraction of critical sectionsnotation language for critical sectionsprogram analysis and LLVM integration/adaptation
power-aware system programmingmutual exclusion, guarded sections, transactionsdynamic dispatch of synchronisation protocols or critical sections, resp.
tamper-proof power-consumption measuringinstruction survey and statistics based on real and virtual machinesenergy-consumption prediction or estimation, resp.
Power-Aware Critical Sectionsscalable synchronisation on the basis of agile critical sections
infrastructure load-dependent and self-organised change ofprotection against race conditions
linguistic support preparation, characterisation, and capturing ofdeclared critical sections
automated extraction of critical sectionsnotation language for critical sectionsprogram analysis and LLVM integration/adaptation
power-aware system programmingmutual exclusion, guarded sections, transactionsdynamic dispatch of synchronisation protocols or critical sections, resp.
tamper-proof power-consumption measuringinstruction survey and statistics based on real and virtual machinesenergy-consumption prediction or estimation, resp.