advapi32res.dll.mui Avanceret Windows 32 Base-API cf79fe98b45a495f1ae47c09d5526a8c

File info

File name: advapi32res.dll.mui
Size: 72192 byte
MD5: cf79fe98b45a495f1ae47c09d5526a8c
SHA1: 8d1dc48646be409615f5aedde679149e25716904
SHA256: a37eec8ea57687c2346476a8b627dc50693d1c4352312fbf59418b15230ed76a
Operating systems: Windows 10
Extension: MUI

Translations messages and strings

If an error occurred or the following message in Danish language and you cannot find a solution, than check answer in English. Table below helps to know how correctly this phrase sounds in English.

id Danish English
1Processoroplysninger Processor Information
2Processor Information Processor Information
3Ydeevnetællersættet for processoroplysninger består af tællere, der måler processoraktiviteten. Processoren er den del af computeren, der udfører aritmetiske og logiske beregninger, starter handlinger på ydre enheder og kører processernes tråde. En computer kan have flere processorer. På nogle computere organiseres processorer i NUMA-noder, der deler hardwareressourcer såsom fysisk hukommelse. Tællersættet for processoroplysninger repræsenterer hver processor som et talpar, hvor det første tal er NUMA-nodens tal, og det andet tal er det nulbaserede indeks for processoren i denne NUMA-node. Hvis computeren ikke bruger NUMA-noder, er det første tal nul. The Processor Information performance counter set consists of counters that measure aspects of processor activity. The processor is the part of the computer that performs arithmetic and logical computations, initiates operations on peripherals, and runs the threads of processes. A computer can have multiple processors. On some computers, processors are organized in NUMA nodes that share hardware resources such as physical memory. The Processor Information counter set represents each processor as a pair of numbers, where the first number is the NUMA node number and the second number is the zero-based index of the processor within that NUMA node. If the computer does not use NUMA nodes, the first number is zero.
5% processortid % Processor Time
6% Processor Time % Processor Time
7% processortid er den procentdel af forløbet tid, som processoren har brugt på at udføre en ikke-inaktiv tråd. Den beregnes ved at måle den procentdel af tiden, som processoren bruger på at udføre den inaktive tråd, og derefter trække den værdi fra 100 %. Hver processor har en inaktiv tråd, hvor tiden akkumuleres, når ingen andre tråde er klar til at køre. Denne tæller er den primære indikator for processoraktivitet, og den viser den gennemsnitlige ledige tid, der er observeret i løbet af prøveintevallet. Det skal bemærkes, at beregningerne af, om processoren er inaktiv, udføres med et internt prøveinterval fra systemursignaler. På nutidens hurtige processorer kan % processortid derfor undervurdere udnyttelsen af processoren, fordi processoren muligvis bruger megen tid på at servicere tråde mellem systemurets prøveinterval. Belastningsbaserede timerprogrammer er et eksempel på programmer, der har større sandsynlighed for at måle forkert, da timerne modtager signaler, lige efter prøven er taget. % Processor Time is the percentage of elapsed time that the processor spends to execute a non-Idle thread. It is calculated by measuring the percentage of time that the processor spends executing the idle thread and then subtracting that value from 100%. (Each processor has an idle thread to which time is accumulated when no other threads are ready to run). This counter is the primary indicator of processor activity, and displays the average percentage of busy time observed during the sample interval. It should be noted that the accounting calculation of whether the processor is idle is performed at an internal sampling interval of the system clock tick. On todays fast processors, % Processor Time can therefore underestimate the processor utilization as the processor may be spending a lot of time servicing threads between the system clock sampling interval. Workload based timer applications are one example of applications which are more likely to be measured inaccurately as timers are signaled just after the sample is taken.
9% brugertid % User Time
10% User Time % User Time
11% brugertid er procentdelen af den forløbne tid, som bruges af processoren i brugertilstand. Brugertilstand er en begrænset tilstand til programmer, miljøundersystemer og integrerede undersystemer. Alternativet, systemtilstand, er fremstillet til operativsystemkomponenter og giver direkte adgang til hardware og al hukommelse. Operativsystemet skifter programtråde til systemtilstand for at få adgang til tjenester i operativsystemet. Denne tæller viser den gennemsnitlige optagede tid som en procentdel af prøvetiden. % User Time is the percentage of elapsed time the processor spends in the user mode. User mode is a restricted processing mode designed for applications, environment subsystems, and integral subsystems. The alternative, privileged mode, is designed for operating system components and allows direct access to hardware and all memory. The operating system switches application threads to privileged mode to access operating system services. This counter displays the average busy time as a percentage of the sample time.
13% beskyttet tid % Privileged Time
14% Privileged Time % Privileged Time
15% systemtilstandstid er den procentdel af den forløbne tid, som denne procestråd har brugt processoren til at udføre instruktioner i systemtilstand. Når der kaldes en Windows-systemtjeneste, vil denne tjeneste ofte blive udført i systemtilstand for at få adgang til operativsystemets private data. Disse data er der ikke adgang til fra de tråde, som udføres i brugertilstand. Systemkald kan være enten eksplicitte eller implicitte, som f.eks. sidefejl eller interrupter. I modsætning til visse tidligere operativsystemer, bruger Windows procesgrænser til beskyttelse af undersystemet ud over traditionel beskyttelse af bruger- og systemtilstand. Noget af det arbejde, som Windows udfører for programmet, kan muligvis indgå i andre processer ud over det, der bliver brugt i systemtilstandstid for processen. % Privileged Time is the percentage of elapsed time that the process threads spent executing code in privileged mode. When a Windows system service in called, the service will often run in privileged mode to gain access to system-private data. Such data is protected from access by threads executing in user mode. Calls to the system can be explicit or implicit, such as page faults or interrupts. Unlike some early operating systems, Windows uses process boundaries for subsystem protection in addition to the traditional protection of user and privileged modes. Some work done by Windows on behalf of the application might appear in other subsystem processes in addition to the privileged time in the process.
17Interrupt/sek. Interrupts/sec
18Interrupts/sec Interrupts/sec
19Interrupter pr. sekund er det gennemsnitlige antal gange pr. sekund, processoren modtager og behandler hardwareinterrupter. Værdien omfatter ikke DPC'er (Deferred Procedure Calls), som tælles separat. Denne værdi er en indirekte indikator for aktiviteten for de enheder, som opretter interrupter, f.eks. systemur, mus, diskdrivere, datakommunikationslinjer, netværkskort og andre ydre enheder. Disse enheder afbryder normalt processoren, når de har afsluttet en opgave eller skal bruge processorressourcer. Normal trådbehandling stoppes midlertidigt. Systemuret afbryder normalt processoren hvert 10. millisekund, hvilket skaber en baggrund af interruptaktivitet. Tælleren viser forskellen mellem de værdier, som er observeret i de seneste to prøver, divideret med varigheden af prøveintervallet. Interrupts/sec is the average rate, in incidents per second, at which the processor received and serviced hardware interrupts. It does not include deferred procedure calls (DPCs), which are counted separately. This value is an indirect indicator of the activity of devices that generate interrupts, such as the system clock, the mouse, disk drivers, data communication lines, network interface cards, and other peripheral devices. These devices normally interrupt the processor when they have completed a task or require attention. Normal thread execution is suspended. The system clock typically interrupts the processor every 10 milliseconds, creating a background of interrupt activity. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval.
21% DPC-tid % DPC Time
22% DPC Time % DPC Time
23% DPC-tid er den procentdel af tid, som processoren har brugt på at modtage og behandle forsinkede procedurekald (DCP'er) i løbet af prøveintervallet. DPC'er er interrupter, der kører ved en lavere prioritet end standardinterruptene. % DPC-tid er en del af % Systemtilstandstid, fordi DPC'er køres i systemtilstandstid. De tælles separat og er ikke en del af interrupttællerne. Denne tæller viser den gennemsnitlige optagede tid som en procentdel af prøvetiden. % DPC Time is the percentage of time that the processor spent receiving and servicing deferred procedure calls (DPCs) during the sample interval. DPCs are interrupts that run at a lower priority than standard interrupts. % DPC Time is a component of % Privileged Time because DPCs are executed in privileged mode. They are counted separately and are not a component of the interrupt counters. This counter displays the average busy time as a percentage of the sample time.
25% interrupttid % Interrupt Time
26% Interrupt Time % Interrupt Time
27% Interrupttid er den tid, processoren bruger på at modtage og behandle hardwareinterrupter i prøveintervaller. Denne værdi er en indirekte indikator for aktiviteten for de enheder, som opretter interrupter, f.eks. systemur, mus, diskdrivere, datakommunikationslinjer, netværkskort og andre ydre enheder. Disse enheder afbryder normalt processoren, når de har afsluttet en opgave eller skal bruge processorressourcer. Normal trådbehandling stoppes midlertidigt under behandling af interrupter. De fleste systemure afbryder processoren hvert 10. millisekund, hvilket skaber en baggrund af processoraktivitet. Tælleren viser den gennemsnitlige optagede tid som en procentdel af prøvetiden. % Interrupt Time is the time the processor spends receiving and servicing hardware interrupts during sample intervals. This value is an indirect indicator of the activity of devices that generate interrupts, such as the system clock, the mouse, disk drivers, data communication lines, network interface cards and other peripheral devices. These devices normally interrupt the processor when they have completed a task or require attention. Normal thread execution is suspended during interrupts. Most system clocks interrupt the processor every 10 milliseconds, creating a background of interrupt activity. suspends normal thread execution during interrupts. This counter displays the average busy time as a percentage of the sample time.
29DPC'er i kø/sek. DPCs Queued/sec
30DPCs Queued/sec DPCs Queued/sec
31DPC'er i kø/sek. er det gennemsnitlige antal gange pr. sekund, DPC'er (Deferred Procedure Calls) er blevet tilføjet processorens DPC-kø. DPC'er er interrupter, der køres med lavere prioritet end standardinterrupter. Hver processor har sin egen DPC-kø. Tælleren måler det antal gange, DPC'er tilføjes i køen, ikke antallet af DPC'er i køen. Tælleren viser forskellen mellem de værdier, som er observeret i de seneste to prøver, divideret med varigheden af prøveintervallet. DPCs Queued/sec is the average rate, in incidents per second, at which deferred procedure calls (DPCs) were added to the processor's DPC queue. DPCs are interrupts that run at a lower priority than standard interrupts. Each processor has its own DPC queue. This counter measures the rate that DPCs are added to the queue, not the number of DPCs in the queue. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval.
33DPC-hastighed DPC Rate
34DPC Rate DPC Rate
35DPC-hastighed er den hastighed, som forsinkede procedurekald (DPC'er) føjes til DPC-køer på processorer med mellem clocksignalerne på processoren. DPC'er er interrupter, der køres med lavere prioritet end standardinterruptene. Hver processor har sin egen DPC-kø. Tælleren måler det antal gange, DPC'er tilføjes i køen, ikke antallet af DPC'er i køen. Denne tæller er ikke et gennemsnit, men viser kun den seneste registrerede værdi. DPC Rate is the rate at which deferred procedure calls (DPCs) were added to the processors DPC queues between the timer ticks of the processor clock. DPCs are interrupts that run at alower priority than standard interrupts. Each processor has its own DPC queue. This counter measures the rate that DPCs were added to the queue, not the number of DPCs in the queue. This counter displays the last observed value only; it is not an average.
37% inaktiv tid % Idle Time
38% Idle Time % Idle Time
39% inaktiv tid er den procentdel af tiden, som processoren er inaktiv i prøveintervallet % Idle Time is the percentage of time the processor is idle during the sample interval
41% C1-tid % C1 Time
42% C1 Time % C1 Time
43% C1-tid er den procentdel af tiden, processoren er i C1-lavenergitilstand, hvor processoren er inaktiv. % C1-tid er en del af processorens samlede inaktive tid. I C1-lavenergitilstand, hvor processoren er inaktiv, kan processoren beholde hele sin kontekst og hurtigt komme tilbage til kørselstilstanden. % C1-tilstand understøttes ikke af alle systemer. % C1 Time is the percentage of time the processor spends in the C1 low-power idle state. % C1 Time is a subset of the total processor idle time. C1 low-power idle state enables the processor to maintain its entire context and quickly return to the running state. Not all systems support the % C1 state.
45% C2-tid % C2 Time
46% C2 Time % C2 Time
47% C2-tid er den procentdel af tiden, processoren er i C2-lavenergitilstand, hvor processoren er inaktiv. % C2-tid er en del af processorens samlede inaktive tid. I C2-lavenergitilstand, hvor processoren er inaktiv, kan processoren beholde konteksten af systemcacherne. C2-energitilstanden bruger mindre energi og har en højere ventetidstilstand til afslutning end C1. C2-tilstand understøttes ikke af alle systemer. % C2 Time is the percentage of time the processor spends in the C2 low-power idle state. % C2 Time is a subset of the total processor idle time. C2 low-power idle state enables the processor to maintain the context of the system caches. The C2 power state is a lower power and higher exit latency state than C1. Not all systems support the C2 state.
49% C3-tid % C3 Time
50% C3 Time % C3 Time
51% C3-tid er den procentdel af tiden, processoren er i C3-lavenergitilstand, hvor den er inaktiv. % C3-tid er en del af processorens samlede inaktive tid. Når processoren er i C3-lavenergitilstand, hor processoren er inaktiv, kan den ikke bevare dataene i cacherne. C3-energitilstanden bruger mindre energi og har en højere ventetidstilstand til afslutning end C2. C3-tilstand understøttes ikke af alle systemer. % C3 Time is the percentage of time the processor spends in the C3 low-power idle state. % C3 Time is a subset of the total processor idle time. When the processor is in the C3 low-power idle state it is unable to maintain the coherency of its caches. The C3 power state is a lower power and higher exit latency state than C2. Not all systems support the C3 state.
53C1-overgange/sek. C1 Transitions/sec
54C1 Transitions/sec C1 Transitions/sec
55C1-overgange/sek. er det antal gange, CPU'en går i C1-lavenergitilstand, hvor processoren er inaktiv. CPU'en går i C1-tilstand, når belastningen er tilstrækkelig lav og forlader tilstanden ved alle afbrydelser. Tælleren viser forskellen mellem de værdier, som er registreret i de seneste to prøver, divideret med varigheden af prøveintervallet. C1 Transitions/sec is the rate that the CPU enters the C1 low-power idle state. The CPU enters the C1 state when it is sufficiently idle and exits this state on any interrupt. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval.
57C2-overgange/sek. C2 Transitions/sec
58C2 Transitions/sec C2 Transitions/sec
59C2-overgange/sek. er det antal gange, CPU'en går i C2-lavenergitilstand, hvor processoren er inaktiv. CPU'en går i C2-tilstand, når belastningen er tilstrækkelig lav og forlader tilstanden ved alle afbrydelser. Tælleren viser forskellen mellem de værdier, som er registreret i de seneste to prøver, divideret med varigheden af prøveintervallet. C2 Transitions/sec is the rate that the CPU enters the C2 low-power idle state. The CPU enters the C2 state when it is sufficiently idle and exits this state on any interrupt. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval.
61C3-overgange/sek. C3 Transitions/sec
62C3 Transitions/sec C3 Transitions/sec
63C3-overgange/sek. er det antal gange, CPU'en går i C3-lavenergitilstand, hvor processoren er inaktiv. CPU'en går i C3-tilstand, når belastningen er tilstrækkelig lav og forlader tilstanden ved alle afbrydelser. Tælleren viser forskellen mellem de værdier, som er registreret i de seneste to prøver, divideret med varigheden af prøveintervallet. C3 Transitions/sec is the rate that the CPU enters the C3 low-power idle state. The CPU enters the C3 state when it is sufficiently idle and exits this state on any interrupt. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval.
65% prioriteret tid % Priority Time
66% Priority Time % Priority Time
67% prioriteret tid er den procentdel af forløbet tid, som processoren har brugt på at udføre tråde, der ikke har lav prioritet. Den beregnes ved at måle den procentdel af tiden, som processoren bruger på at udføre tråde med lav prioritet eller den inaktive tråd og derefter trække den værdi fra 100 %. Hver processor har en inaktiv tråd, hvor tiden akkumuleres, når ingen andre tråde er klar til at køre. Denne tæller viser den gennemsnitlige procentdel af optaget tid, der er observeret i løbet af prøveintervallet, med fradrag af baggrundsarbejde med lav prioritet. Det skal bemærkes, at beregningerne af, om processoren er inaktiv, udføres med et internt prøveinterval fra systemursignalerne. % prioriteret tid kan derfor undervurdere udnyttelsen af processoren, fordi processoren muligvis bruger megen tid på at servicere tråde mellem systemurets prøveintervaller. Belastningsbaserede timerprogrammer er et eksempel på programmer, der har større sandsynlighed for at måle forkert, da timerne modtager signaler, lige efter prøven er taget. % Priority Time is the percentage of elapsed time that the processor spends executing threads that are not low priority. It is calculated by measuring the percentage of time that the processor spends executing low priority threads or the idle thread and then subtracting that value from 100%. (Each processor has an idle thread to which time is accumulated when no other threads are ready to run). This counter displays the average percentage of busy time observed during the sample interval excluding low priority background work. It should be noted that the accounting calculation of whether the processor is idle is performed at an internal sampling interval of the system clock tick. % Priority Time can therefore underestimate the processor utilization as the processor may be spending a lot of time servicing threads between the system clock sampling interval. Workload based timer applications are one example of applications which are more likely to be measured inaccurately as timers are signaled just after the sample is taken.
69Parkeringsstatus Parking Status
70Parking Status Parking Status
71Parkeringsstatus angiver, om en processor er parkeret eller ej. Parking Status represents whether a processor is parked or not.
73Processorfrekvens Processor Frequency
74Processor Frequency Processor Frequency
75Processorfrekvensen er frekvensen på den aktuelle processor målt i megahertz. Visse processorer kan regulere deres frekvens, uden at det er Windows, der styrer det. Processorfrekvensen afspejler ikke nøjagtigt den faktiske processorfrekvens på disse systemer. Brug i stedet % -processorydelsen. Processor Frequency is the frequency of the current processor in megahertz. Some processors are capable of regulating their frequency outside of the control of Windows. Processor Frequency will not accurately reflect actual processor frequency on these systems. Use % Processor Performance instead.
77% af maksimal frekvens % of Maximum Frequency
78% of Maximum Frequency % of Maximum Frequency
79% af maksimal frekvens er procentdelen af den aktuelle processors maksimale frekvens. Visse processorer kan regulere deres frekvens, uden at det er Windows, der styrer det. % af maksimal frekvens afspejler ikke nøjagtigt den faktiske processorfrekvens på disse systemer. Brug i stedet % processorydelse. % of Maximum Frequency is the percentage of the current processor's maximum frequency. Some processors are capable of regulating their frequency outside of the control of Windows. % of Maximum Frequency will not accurately reflect actual processor frequency on these systems. Use % Processor Performance instead.
81Processorstatusflag Processor State Flags
82Processor State Flags Processor State Flags
85Synkronisering Synchronization
86Synchronization Synchronization
87Ydelsesobjektet for synkronisering består af tællere for kernesynkronisering. Synkroniseringsobjektet repræsenterer de enkelte processorer som en forekomst af objektet. The Synchronization performance object consists of counters for kernel synchronization. The synchronization object represents each processor as an instance of the object.
89Hentede spinlocks/sek. Spinlock Acquires/sec
90Spinlock Acquires/sec Spinlock Acquires/sec
91Hentede spinlock/sek. angiver mængden af hentede spinlocks. Det omfatter de grundlæggende spinlocks, spinlocks i kø, spinlocks i kø i stakken og delte hentede spinlocks. Spinlock acquires/sec is the rate of spinlock acquisitions. It includes the basic spinlocks, queued spinlocks, in-stack queued spinlocks, and shared spinlocks acquisitions.
93Spinlock-konflikter/sek. Spinlock Contentions/sec
94Spinlock Contentions/sec Spinlock Contentions/sec
95Spinlock-konflikter/sek. angiver mængden af spinlock-konflikter. Det omfatter de grundlæggende spinlocks, spinlocks i kø, spinlocks i kø i stakken og delte hentede spinlock. Spinlock contentions/sec is the rate of spinlock contentions. It includes the basic spinlocks, queued spinlocks, in-stack queued spinlocks, and shared spinlocks contentions.
97Spinlock-roteringer/sek. Spinlock Spins/sec
98Spinlock Spins/sec Spinlock Spins/sec
99Spinlock-roteringer/sek. angiver mængden af spinlock-roteringer. Det omfatter de spinlocks, der skal hentes, grundlæggende spinlocks, spinlocks i kø, spinlocks i kø i stakken og delte spinlocks. Spinlock spins/sec is the rate of spinlock spins. It includes the spins to acquire basic spinlocks, queued spinlocks, in-stack queued spinlocks, and shared spinlocks.
101Anmodninger om IPI-udsendelser/sek. IPI Send Broadcast Requests/sec
102IPI Send Broadcast Requests/sec IPI Send Broadcast Requests/sec
103Anmodninger om IPI-udsendelser/sek. er mængden af anmodninger om IPI-udsendelser. IPI Send Broadcast Requests/sec is the rate of IPI broadcast requests.
105Anmodninger om IPI-afsendelsesrutiner/sek. IPI Send Routine Requests/sec
106IPI Send Routine Requests/sec IPI Send Routine Requests/sec
107Anmodninger om IPI-afsendelsesrutiner/sek. er mængden af anmodninger om IPI-rutiner. IPI Send Routine Requests/sec is the rate of IPI routine requests.
109IPI-interrupter for afsendelse af software /sek. IPI Send Software Interrupts/sec
110IPI Send Software Interrupts/sec IPI Send Software Interrupts/sec
111IPI-interrupter for afsendelse af software /sek. er mængden af softwareinterrupter. IPI Send Software Interrrupts/sec is the rate of software interrupts.
113Samlet antal initaliseringer for overordnede ressourcer/sek. Exec. Resource Total Initialize/sec
114Exec. Resource Total Initialize/sec Exec. Resource Total Initialize/sec
115Frekvensen af initialiseringshandlinger for overordnede ressourcer. Frequency of initialization operations on Executive Resources.
117Samlet antal geninitaliseringer for overordnede ressourcer/sek. Exec. Resource Total Re-Initialize/sec
118Exec. Resource Total Re-Initialize/sec Exec. Resource Total Re-Initialize/sec
119Frekvensen af geninitialiseringshandlinger for overordnede ressourcer. Frequency of re-initialization operations on Executive Resources.
121Samlet antal sletninger for overordnede ressourcer/sek. Exec. Resource Total Delete/sec
122Exec. Resource Total Delete/sec Exec. Resource Total Delete/sec
123Frekvensen af slettehandlinger for overordnede ressourcer. Frequency of delete operations on Executive Resources.
125Samlet antal hentninger for overordnede ressourcer/sek. Exec. Resource Total Acquires/sec
126Exec. Resource Total Acquires/sec Exec. Resource Total Acquires/sec
127Frekvensen af hentehandlinger for overordnede ressourcer. Frequency of acquire operations on Executive Resources.
129Samlet antal konflikter for overordnede ressourcer/sek. Exec. Resource Total Contentions/sec
130Exec. Resource Total Contentions/sec Exec. Resource Total Contentions/sec
131Mængden af konflikter for overordnede ressourcer. Contention rate on Executive Resources.
133Samlet antal eksklusive frigivelser for overordnede ressourcer/sek. Exec. Resource Total Exclusive Releases/sec
134Exec. Resource Total Exclusive Releases/sec Exec. Resource Total Exclusive Releases/sec
135Frekvensen af eksklusive frigivelser for overordnede ressourcer. Frequency of Exclusive releases on Executive Resources.
137Samlet antal delte frigivelser for overordnede ressourcer/sek. Exec. Resource Total Shared Releases/sec
138Exec. Resource Total Shared Releases/sec Exec. Resource Total Shared Releases/sec
139Frekvensen af delte frigivelser for overordnede ressourcer. Frequency of Shared releases on Executive Resources.
141Samlet antal eksklusive konverteringer til deling for overordnede ressourcer/sek. Exec. Resource Total Conv. Exclusive To Shared/sec
142Exec. Resource Total Conv. Exclusive To Shared/sec Exec. Resource Total Conv. Exclusive To Shared/sec
143Frekvensen af handlinger, der konverteres til delte, for overordnede ressourcer. Frequency of convert to shared operations on Executive Resources.
145Antal forsøg på AcqExclLite for overordnede ressourcer/sek. Exec. Resource Attempts AcqExclLite/sec
146Exec. Resource Attempts AcqExclLite/sec Exec. Resource Attempts AcqExclLite/sec
147Frekvensen af forsøg på eksklusive hentninger for overordnede ressourcer fra ExAcquireResourceExclusiveLite. Frequency of acquire exclusive attempts on Executive Resources from ExAcquireResourceExclusiveLite.
149Antal hentninger af AcqExclLite for overordnede ressourcer/sek. Exec. Resource Acquires AcqExclLite/sec
150Exec. Resource Acquires AcqExclLite/sec Exec. Resource Acquires AcqExclLite/sec
151Frekvensen af første eksklusive hentninger fra ExAcquireResourceExclusiveLite. Frequency of first exclusive acquires from ExAcquireResourceExclusiveLite.
153Antal rekursive eksklusive hentninger fra AcqExclLite for overordnede ressourcer/sek. Exec. Resource Recursive Excl. Acquires AcqExclLite/sec
154Exec. Resource Recursive Excl. Acquires AcqExclLite/sec Exec. Resource Recursive Excl. Acquires AcqExclLite/sec
155Frekvensen af rekursive eksklusive hentninger fra ExAcquireResourceExclusiveLite. Frequency of recursive exclusive acquires from ExAcquireResourceExclusiveLite.
157Antal konflikter for AcqExclLite for overordnede ressourcer/sek. Exec. Resource Contention AcqExclLite/sec
158Exec. Resource Contention AcqExclLite/sec Exec. Resource Contention AcqExclLite/sec
159Frekvensen af ventetider under forsøg på eksklusive hentninger fra ExAcquireResourceExclusiveLite. Frequency of waits during exclusive acquire attempts from ExAcquireResourceExclusiveLite.
161Antal AcqExclLite uden ventetider for overordnede ressourcer/sek. Exec. Resource no-Waits AcqExclLite/sec
162Exec. Resource no-Waits AcqExclLite/sec Exec. Resource no-Waits AcqExclLite/sec
163Frekvensen af ingen ventetider under forsøg på eksklusive hentninger fra ExAcquireResourceExclusiveLite. Frequency of no-waits during exclusive acquire attempts from ExAcquireResourceExclusiveLite.
165Antal forsøg på AcqShrdLite for overordnede ressourcer/sek. Exec. Resource Attempts AcqShrdLite/sec
166Exec. Resource Attempts AcqShrdLite/sec Exec. Resource Attempts AcqShrdLite/sec
167Frekvensen af forsøg på delte hentninger for overordnede ressourcer fra ExAcquireResourceSharedLite. Frequency of acquire shared attempts on Executive Resources from ExAcquireResourceSharedLite.
169Antal rekursive eksklusive hentninger fra AcqShrdLite for overordnede ressourcer/sek. Exec. Resource Recursive Excl. Acquires AcqShrdLite/sec
170Exec. Resource Recursive Excl. Acquires AcqShrdLite/sec Exec. Resource Recursive Excl. Acquires AcqShrdLite/sec
171Frekvensen af rekursive eksklusive hentninger fra ExAcquireResourceSharedLite. Frequency of recursive exclusive acquires from ExAcquireResourceSharedLite.
173Antal hentninger af AcqShrdLite for overordnede ressourcer/sek. Exec. Resource Acquires AcqShrdLite/sec
174Exec. Resource Acquires AcqShrdLite/sec Exec. Resource Acquires AcqShrdLite/sec
175Frekvensen af første delte hentninger fra ExAcquireResourceSharedLite. Frequency of first shared acquires from ExAcquireResourceSharedLite.
177Antal rekursive delte hentninger fra AcqShrdLite for overordnede ressourcer/sek. Exec. Resource Recursive Sh. Acquires AcqShrdLite/sec
178Exec. Resource Recursive Sh. Acquires AcqShrdLite/sec Exec. Resource Recursive Sh. Acquires AcqShrdLite/sec
179Frekvensen af rekursive delte hentninger fra ExAcquireResourceSharedLite. Frequency of recursive shared acquires from ExAcquireResourceSharedLite.
181Antal konflikter for AcqShrdLite for overordnede ressourcer/sek. Exec. Resource Contention AcqShrdLite/sec
182Exec. Resource Contention AcqShrdLite/sec Exec. Resource Contention AcqShrdLite/sec
183Frekvensen af ventetider under forsøg på hentninger fra ExAcquireResourceSharedLite. Frequency of waits during acquire attempts from ExAcquireResourceSharedLite.
185Antal AcqShrdLite uden ventetider for overordnede ressourcer/sek. Exec. Resource no-Waits AcqShrdLite/sec
186Exec. Resource no-Waits AcqShrdLite/sec Exec. Resource no-Waits AcqShrdLite/sec
187Frekvensen af ingen ventetider under forsøg på hentninger fra ExAcquireResourceSharedLite. Frequency of no-waits during acquire attempts from ExAcquireResourceSharedLite.
189Antal forsøg på AcqShrdStarveExcl for overordnede ressourcer/sek. Exec. Resource Attempts AcqShrdStarveExcl/sec
190Exec. Resource Attempts AcqShrdStarveExcl/sec Exec. Resource Attempts AcqShrdStarveExcl/sec
191Frekvensen af forsøg på delte hentninger for overordnede ressourcer fra ExAcquireSharedStarveExclusive. Frequency of acquire shared attempts on Executive Resources from ExAcquireSharedStarveExclusive.
193Antal rekursive hentninger fra AcqShrdStarveExcl for overordnede ressourcer/sek. Exec. Resource Recursive Excl. Acquires AcqShrdStarveExcl/sec
194Exec. Resource Recursive Excl. Acquires AcqShrdStarveExcl/sec Exec. Resource Recursive Excl. Acquires AcqShrdStarveExcl/sec
195Frekvensen af rekursive eksklusive hentninger fra ExAcquireSharedStarveExclusive. Frequency of recursive exclusive acquires from ExAcquireSharedStarveExclusive.
197Antal hentninger af AcqShrdStarveExcl for overordnede ressourcer/sek. Exec. Resource Acquires AcqShrdStarveExcl/sec
198Exec. Resource Acquires AcqShrdStarveExcl/sec Exec. Resource Acquires AcqShrdStarveExcl/sec
199Frekvensen af første delte hentninger fra ExAcquireSharedStarveExclusive. Frequency of first shared acquires from ExAcquireSharedStarveExclusive.
201Antal rekursive delte hentninger fra AcqShrdStarveExcl for overordnede ressourcer/sek. Exec. Resource Recursive Sh. Acquires AcqShrdStarveExcl/sec
202Exec. Resource Recursive Sh. Acquires AcqShrdStarveExcl/sec Exec. Resource Recursive Sh. Acquires AcqShrdStarveExcl/sec
203Frekvensen af rekursive delte hentninger fra ExAcquireSharedStarveExclusive. Frequency of recursive shared acquires from ExAcquireSharedStarveExclusive.
205Antal konflikter af AcqShrdStarveExcl for overordnede ressourcer/sek. Exec. Resource Contention AcqShrdStarveExcl/sec
206Exec. Resource Contention AcqShrdStarveExcl/sec Exec. Resource Contention AcqShrdStarveExcl/sec
207Frekvensen af ventetider under forsøg på delte hentninger fra ExAcquireSharedStarveExclusive. Frequency of waits during shared acquire attempts from ExAcquireSharedStarveExclusive.
209Ingen ventetider af AcqShrdStarveExcl for overordnede ressourcer/sek. Exec. Resource no-Waits AcqShrdStarveExcl/sec
210Exec. Resource no-Waits AcqShrdStarveExcl/sec Exec. Resource no-Waits AcqShrdStarveExcl/sec
211Frekvensen af ingen ventetider under forsøg på delte hentninger fra ExAcquireSharedStarveExclusive. Frequency of no-waits during shared acquire attempts from ExAcquireSharedStarveExclusive.
213Antal forsøg på AcqShrdWaitForExcl for overordnede ressourcer/sek. Exec. Resource Attempts AcqShrdWaitForExcl/sec
214Exec. Resource Attempts AcqShrdWaitForExcl/sec Exec. Resource Attempts AcqShrdWaitForExcl/sec
215Frekvensen af forsøg på delte hentninger for overordnede ressourcer fra ExAcquireSharedWaitForExclusive. Frequency of acquire shared attempts on Executive Resources from ExAcquireSharedWaitForExclusive.
217Antal rekursive eksklusive hentninger fra AcqShrdWaitForExcl for overordnede ressourcer/sek. Exec. Resource Recursive Excl. Acquires AcqShrdWaitForExcl/sec
218Exec. Resource Recursive Excl. Acquires AcqShrdWaitForExcl/sec Exec. Resource Recursive Excl. Acquires AcqShrdWaitForExcl/sec
219Frekvensen af rekursive eksklusive hentninger fra ExAcquireSharedWaitForExclusive. Frequency of recursive exclusive acquires from ExAcquireSharedWaitForExclusive.
221Antal hentninger af AcqShrdWaitForExcl for overordnede ressourcer/sek. Exec. Resource Acquires AcqShrdWaitForExcl/sec
222Exec. Resource Acquires AcqShrdWaitForExcl/sec Exec. Resource Acquires AcqShrdWaitForExcl/sec
223Frekvensen af første delte hentninger fra ExAcquireSharedWaitForExclusive. Frequency of first shared acquires from ExAcquireSharedWaitForExclusive.
225Antal rekursive delte hentninger fra AcqShrdWaitForExcl for overordnede ressourcer/sek. Exec. Resource Recursive Sh. Acquires AcqShrdWaitForExcl/sec
226Exec. Resource Recursive Sh. Acquires AcqShrdWaitForExcl/sec Exec. Resource Recursive Sh. Acquires AcqShrdWaitForExcl/sec
227Frekvensen af rekursive delte hentninger fra ExAcquireSharedWaitForExclusive. Frequency of recursive shared acquires from ExAcquireSharedWaitForExclusive.
229Antal konflikter for AcqShrdWaitForExcl for overordnede ressourcer/sek. Exec. Resource Contention AcqShrdWaitForExcl/sec
230Exec. Resource Contention AcqShrdWaitForExcl/sec Exec. Resource Contention AcqShrdWaitForExcl/sec
231Frekvensen af ventetider under forsøg på delte hentninger fra ExAcquireSharedWaitForExclusive. Frequency of waits during shared acquire attempts from ExAcquireSharedWaitForExclusive.
233Ingen ventetider for AcqShrdWaitForExcl for overordnede ressourcer/sek. Exec. Resource no-Waits AcqShrdWaitForExcl/sec
234Exec. Resource no-Waits AcqShrdWaitForExcl/sec Exec. Resource no-Waits AcqShrdWaitForExcl/sec
235Frekvensen af ingen ventetider under forsøg på eksklusive hentninger fra ExAcquireSharedWaitForExclusive. Frequency of no-waits during exclusive acquire attempts from ExAcquireSharedWaitForExclusive.
237Angivet eksklusiv ejerpointer for overordnede ressourcer/sek. Exec. Resource Set Owner Pointer Exclusive/sec
238Exec. Resource Set Owner Pointer Exclusive/sec Exec. Resource Set Owner Pointer Exclusive/sec
239Frekvensen af ExSetResourceOwnerPointer for en eksklusiv ejer. Frequency of ExSetResourceOwnerPointer to an exclusive owner.
241Angivet delt ejerpointer (ny ejer) for overordnede ressourcer/sek. Exec. Resource Set Owner Pointer Shared (New Owner)/sec
242Exec. Resource Set Owner Pointer Shared (New Owner)/sec Exec. Resource Set Owner Pointer Shared (New Owner)/sec
243Frekvensen af ExSetResourceOwnerPointer for en ny delt ejer. Frequency of ExSetResourceOwnerPointer to a new shared owner.
245Angivet delt ejerpointer (eksisterende ejer) for overordnede ressourcer/sek. Exec. Resource Set Owner Pointer Shared (Existing Owner)/sec
246Exec. Resource Set Owner Pointer Shared (Existing Owner)/sec Exec. Resource Set Owner Pointer Shared (Existing Owner)/sec
247Frekvensen af ExSetResourceOwnerPointer for en eksisterende delt ejer. Frequency of ExSetResourceOwnerPointer to an existing shared owner.
249Forstærket eksklusiv ejer for overordnede ressourcer/sek. Exec. Resource Boost Excl. Owner/sec
250Exec. Resource Boost Excl. Owner/sec Exec. Resource Boost Excl. Owner/sec
251Frekvens for forstærkning af eksklusive ejere, der venter på denne overordnede ressource. Frequency of boosting exclusive ownwer when waiting for this Executive Resource.
253Forstærkede delte ejere for overordnede ressourcer/sek. Exec. Resource Boost Shared Owners/sec
254Exec. Resource Boost Shared Owners/sec Exec. Resource Boost Shared Owners/sec
255Frekvens for forstærkning af delte ejere, der venter på denne overordnede ressource. Frequency of boosting shared ownwer(s) when waiting for this Executive Resource.
257Sporing af hændelse til Windows Event Tracing for Windows
258Event Tracing for Windows Event Tracing for Windows
259Tællerne i denne samling henviser til metrikværdier for hele systemet for ydeevnen ved sporing af hændelser for Windows-undersystem. The counters in this collection refer to system-wide metrics about the performance of the Event Tracing for Windows subsystem.
261Samlet antal særskilte aktiverede udbydere Total Number of Distinct Enabled Providers
262Total Number of Distinct Enabled Providers Total Number of Distinct Enabled Providers
263Antal særskilte hændelsesudbydere, der er aktiveret for ETW-sessioner. Flere forekomster af en udbyder tælles kun med én gang. Number of distinct event providers that are enabled to ETW sessions; multiple instances of a provider are counted only once.
265Samlet antal særskilte forudaktiverede udbydere Total Number of Distinct Pre-Enabled Providers
266Total Number of Distinct Pre-Enabled Providers Total Number of Distinct Pre-Enabled Providers
267Antal entydige sporingsudbydere, der er aktiveret til en sporingssession, men som endnu ikke er registreret hos ETW. Number of unique tracing providers that have been enabled to a trace session but have not yet registered with ETW.
269Samlet antal særskilte deaktiverede udbydere Total Number of Distinct Disabled Providers
270Total Number of Distinct Disabled Providers Total Number of Distinct Disabled Providers
271Antal entydige sporingsudbydere, der er registreret på sporingsundersystemet, men som ikke er aktivt aktiveret til en sporingssession. Flere registrerede forekomster af en udbyder tælles kun med én gang. Number of unique tracing providers that are registered with the tracing subsystem but are not actively enabled to any trace session; multiple registered instances of a provider are counted only once.
273Samlet antal aktive sessioner Total Number of Active Sessions
274Total Number of Active Sessions Total Number of Active Sessions
275Antal ETW-sporingssessioner, der er aktive i øjeblikket. Number of ETW tracing sessions currently active.
277Samlet hukommelsesforbrug - sideinddelt gruppe Total Memory Usage --- Paged Pool
278Total Memory Usage --- Paged Pool Total Memory Usage --- Paged Pool
279Den aktuelle størrelse af sideinddelt hukommelse, der er allokeret til de buffere, som er knyttet til alle aktive sessioner (i byte). Current size of paged memory allocated for the buffers associated with all active sessions (in bytes).
281Samlet brug af hukommelse - ikke-sideinddelt gruppe Total Memory Usage --- Non-Paged Pool
282Total Memory Usage --- Non-Paged Pool Total Memory Usage --- Non-Paged Pool
283Den aktuelle størrelse af ikke-sideinddelt hukommelse, der er allokeret til de buffere, som er knyttet til alle aktive sessioner (i byte). Current size of non-paged memory allocated for the buffers associated with all active sessions (in bytes).
285Sporing af hændelse til Windows-session Event Tracing for Windows Session
286Event Tracing for Windows Session Event Tracing for Windows Session
287Tællerne i denne samling er relateret til enkelte sessioner i Hændelsessporing til Windows. The counters in this collection are related to individual Event Tracing for Windows sessions.
289Bufferens brug af hukommelse - sideinddelt gruppe Buffer Memory Usage -- Paged Pool
290Buffer Memory Usage -- Paged Pool Buffer Memory Usage -- Paged Pool
291Den aktuelle størrelse af sideinddelt hukommelse, der er allokeret til de buffere, som er knyttet til denne session (i byte). Current size of paged memory allocated for the buffers associated with this session (in bytes).
293Bufferens brug af hukommelse - ikke-sideinddelt gruppe Buffer Memory Usage -- Non-Paged Pool
294Buffer Memory Usage -- Non-Paged Pool Buffer Memory Usage -- Non-Paged Pool
295Den aktuelle størrelse af ikke-sideinddelt hukommelse, der er allokeret til de buffere, som er knyttet til denne session (i byte). Current size of non-paged memory allocated for the buffers associated with this session (in bytes).
297Hændelser logført pr. sek. Events Logged per sec
298Events Logged per sec Events Logged per sec
299Den hastighed, som hændelser logføres med i denne session af udbydere, der er aktiveret i denne session (hændelser/sek.). Rate at which events are logged to this session by providers that are enabled to this session (events/sec).
301Mistede hændelser Events Lost
302Events Lost Events Lost
303Samlet antal hændelser, det ikke er lykkedes at logføre siden starten af sporingssessionen. Hændelser mistes på grund af begrænset plads i sessionens buffere. Hvis du vil undgå at miste hændelser, skal du overveje at øge bufferstørrelsen eller antallet af buffere. Total number of events that were not successfully logged since the start of the tracing session. Events are lost due to limited space in the session's buffers. To avoid lost events, consider increasing the buffer size or the number of buffers.
305Antal forbrugere i realtid Number of Real-Time Consumers
306Number of Real-Time Consumers Number of Real-Time Consumers
307Antal forbrugere, der i øjeblikket læser hændelser fra denne session i realtidstilstand. Number of consumers currently reading events from this session in real-time mode.
309SynchronizationNuma SynchronizationNuma
311Ydelsesobjektet for synkronisering består af tællere for kernesynkronisering. Synkroniseringsobjektet repræsenterer de enkelte processorer som en forekomst af objektet. Tællerne samles på baggrund af systemets NUMA-topologi. The Synchronization performance object consists of counters for kernel synchronization. The synchronization object represents each processor as an instance of the object. The counters are aggregated based on the system NUMA topology.
315Hentede spinlocks/sek. angiver mængden af hentede spinlocks. Det omfatter de grundlæggende spinlocks, spinlocks i kø, spinlocks i kø i stakken og delte hentede spinlocks. Spinlock acquires/sec is the rate of spinlock acquisitions. It includes the basic spinlocks, queued spinlocks, in-stack queued spinlocks, and shared spinlocks acquisitions.
337Samlet antal initialiseringer for overordnede ressourcer/sek. Exec. Resource Total Initialize/sec
341Samlet antal geninitialiseringer for overordnede ressourcer/sek. Exec. Resource Total Re-Initialize/sec
481Filsystemets ydelsestællersæt Diskaktivitet består af tællere, der måler forholdet for filsystemets input/output-aktivitet. Dette tællersæt måler antallet af byte, som filsystemet har læst fra og skrevet til diskdrevet. The FileSystem Disk Activity performance counter set consists of counters that measure the aspect of filesystem's IO Activity. This counter set measures the number of bytes filesystem read from and wrote to the disk drive.
483Diskaktivitet for filsystem FileSystem Disk Activity
484FileSystem Disk Activity FileSystem Disk Activity
485Samlet antal byte, som er læst af filsystemet fra diskdrevet Total Bytes Read by the FileSystem from disk drive
487Antal byte læst af filsystem FileSystem Bytes Read
488FileSystem Bytes Read FileSystem Bytes Read
489Samlet antal byte, som er skrevet af filsystemet fra diskdrevet Total Bytes Written by the FileSystem from disk drive
491Antal byte skrevet af filsystem FileSystem Bytes Written
492FileSystem Bytes Written FileSystem Bytes Written
501Ydeevnetællersættet for oplysninger om termisk zone består af tællere, der måler de enkelte termiske zoner i systemet. The Thermal Zone Information performance counter set consists of counters that measure aspects of each thermal zone in the system.
503Oplysninger om termisk zone Thermal Zone Information
504Thermal Zone Information Thermal Zone Information
505Temperaturen i den termiske zone i grader Kelvin. Temperature of the thermal zone, in degrees Kelvin.
507Temperatur Temperature
508Temperature Temperature
509% Den passive grænse er den aktuelle grænse, som denne termiske zone placerer på enheder, den styrer. En grænse på 100 % angiver, at enhederne er uden begrænsninger. En grænse på 0 % angiver, at enhederne er fuldt begrænsede. % Passive Limit is the current limit this thermal zone is placing on the devices it controls. A limit of 100% indicates the devices are unconstrained. A limit of 0% indicates the devices are fully constrained.
511% Passiv grænse % Passive Limit
512% Passive Limit % Passive Limit
513Throttle-årsager angiver årsagerne til, at den termiske zone begrænser ydeevnen for de enheder, den styrer. Throttle Reasons indicate reasons why the thermal zone is limiting performance of the devices it controls.
515Throttle-årsager Throttle Reasons
516Throttle Reasons Throttle Reasons
517Temperaturen i den termiske zone i tiendedele grader Kelvin. Temperature of the thermal zone, in tenths of degrees Kelvin.
519Temperatur med høj præcision High Precision Temperature
520High Precision Temperature High Precision Temperature
777Taktinterrupter/sek. er den gennemsnitlige hastighed i antal gange pr. sekund, som processoren modtog og betjente taktsignalinterrupter med. Denne tæller viser forskellen mellem de værdier, der er observeret i de seneste to prøver divideret med prøveintervallets varighed. Clock Interrupts/sec is the average rate, in incidents per second, at which the processor received and serviced clock tick interrupts. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval.
779Den gennemsnitlige inaktive periode er den gennemsnitlige inaktive varighed i 100ns-enheder, der observeres mellem de seneste to prøver. Average Idle Time is the average idle duration in 100ns units observed between the last two samples.
781Inaktive brudhændelser/sek. er den gennemsnitlige hastighed i hændelser pr. sekund, som processoren vågner fra inaktivitet med. Denne tæller viser forskellen mellem de værdier, der er observeret i de seneste to prøver, divideret med varigheden af prøveintervallet. Idle Break Events/sec is the average rate, in incidents per second, at which the processor wakes from idle. This counter displays the difference between the values observed in the last two samples, divided by the duration of the sample interval.
783Processorydelsen er processorens gennemsnitlige ydelse, mens den afvikler instruktioner, i procent af processorens nominelle ydelse. På visse processorer kan processorydelsen overstige 100 %. Visse processorer kan regulere deres frekvens, uden at det er Windows, der styrer det. Processorydelsen afspejler nøjagtigt ydelsen af disse processorer. Processor Performance is the average performance of the processor while it is executing instructions, as a percentage of the nominal performance of the processor. On some processors, Processor Performance may exceed 100%. Some processors are capable of regulating their frequency outside of the control of Windows. Processor Performance will accurately reflect the performance of these processors.
785Processoranvendelse er den mængde arbejde, som en processor udfører, som en procentdel af den mængde arbejde, som processoren kunne udføre, hvis den kørte ved sin nominelle ydelse og aldrig var inaktiv. På nogle processorer kan processoranvendelsen overstige 100 %. Processor Utility is the amount of work a processor is completing, as a percentage of the amount of work the processor could complete if it were running at its nominal performance and never idle. On some processors, Processor Utility may exceed 100%.
787Privilegeret anvendelse er mængden af arbejde, som en processor udfører, mens den kører i systemtilstand, som en procentdel af mængden af arbejde, som processoren kunne udføre, hvis den kørte ved sin nominelle ydelse og aldrig var inaktiv. På nogle processorer kan privilegeret anvendelse overstige 100 %. Privileged Utility is the amount of work a processor is completing while executing in privileged mode, as a percentage of the amount of work the processor could complete if it were running at its nominal performance and never idle. On some processors, Privileged Utility may exceed 100%.
789Ydeevnegrænse i % er processorens garanterede ydeevne som en procentdel af den nominelle ydeevne. Ydeevnen kan være begrænset af strømpolitikken i Windows eller af platformen som følge af et strømbudget, overhedning eller andre hardwareproblemer. % Performance Limit is the performance the processor guarantees it can provide, as a percentage of the nominal performance of the processor. Performance can be limited by Windows power policy, or by the platform as a result of a power budget, overheating, or other hardware issues.
791Flag for ydeevnegrænse angiver årsager til, hvorfor processorens ydeevne er begrænset. Performance Limit Flags indicate reasons why the processor performance was limited.
999Taktinterrupter/sek. Clock Interrupts/sec
1000Clock Interrupts/sec Clock Interrupts/sec
1001Gennemsnitlig inaktiv periode Average Idle Time
1002Average Idle Time Average Idle Time
1003Inaktive brudhændelser/sek. Idle Break Events/sec
1004Idle Break Events/sec Idle Break Events/sec
1005% processorydelse % Processor Performance
1006% Processor Performance % Processor Performance
1007% processoranvendelse % Processor Utility
1008% Processor Utility % Processor Utility
1009% privilegeret anvendelse % Privileged Utility
1010% Privileged Utility % Privileged Utility
1011Ydeevnegrænse i % % Performance Limit
1012% Performance Limit % Performance Limit
1013Flag for ydeevnegrænse Performance Limit Flags
1014Performance Limit Flags Performance Limit Flags

EXIF

File Name:advapi32res.dll.mui
Directory:%WINDIR%\WinSxS\amd64_microsoft-windows-advapi32res.resources_31bf3856ad364e35_10.0.15063.0_da-dk_9f41495066a322d2\
File Size:70 kB
File Permissions:rw-rw-rw-
File Type:Win32 DLL
File Type Extension:dll
MIME Type:application/octet-stream
Machine Type:Intel 386 or later, and compatibles
Time Stamp:0000:00:00 00:00:00
PE Type:PE32
Linker Version:14.10
Code Size:0
Initialized Data Size:71680
Uninitialized Data Size:0
Entry Point:0x0000
OS Version:10.0
Image Version:10.0
Subsystem Version:6.0
Subsystem:Windows GUI
File Version Number:10.0.15063.0
Product Version Number:10.0.15063.0
File Flags Mask:0x003f
File Flags:(none)
File OS:Windows NT 32-bit
Object File Type:Dynamic link library
File Subtype:0
Language Code:Danish
Character Set:Unicode
Company Name:Microsoft Corporation
File Description:Avanceret Windows 32 Base-API
File Version:10.0.15063.0 (WinBuild.160101.0800)
Internal Name:advapi32res.dll
Legal Copyright:© Microsoft Corporation. Alle rettigheder forbeholdes.
Original File Name:advapi32res.dll.mui
Product Name:Microsoft® Windows® Operativsystem
Product Version:10.0.15063.0
Directory:%WINDIR%\WinSxS\x86_microsoft-windows-advapi32res.resources_31bf3856ad364e35_10.0.15063.0_da-dk_4322adccae45b19c\

What is advapi32res.dll.mui?

advapi32res.dll.mui is Multilingual User Interface resource file that contain Danish language for file advapi32res.dll (Avanceret Windows 32 Base-API).

File version info

File Description:Avanceret Windows 32 Base-API
File Version:10.0.15063.0 (WinBuild.160101.0800)
Company Name:Microsoft Corporation
Internal Name:advapi32res.dll
Legal Copyright:© Microsoft Corporation. Alle rettigheder forbeholdes.
Original Filename:advapi32res.dll.mui
Product Name:Microsoft® Windows® Operativsystem
Product Version:10.0.15063.0
Translation:0x406, 1200