IEEE 1532
E8200
IEEE 1532 is an extension of the JTAG boundary-scan standard that defines in-system programming and configuration procedures for programmable devices such as FPGAs and CPLDs.
All labels observed (4)
| Label | Occurrences |
|---|---|
| IEEE 1532 canonical | 1 |
| IEEE 1532 in-system configuration standard | 1 |
| IEEE Standard for In-System Configuration of Programmable Devices | 1 |
| IEEE Std 1532 | 1 |
How this entity was disambiguated
This entity first appeared as the object of triple T73267 — resolving that mention is where its identity was fixed. The disambiguator weighed these candidate entities and picked the highlighted one (or “None”, minting a new entity). This is how homonymy is resolved: the same surface form can point to different entities.
Target entity: IEEE 1532 Context triple: [IEEE 1149.1 JTAG boundary-scan standard, relatedStandard, IEEE 1532]
-
A.
ITU-T G.8265.1
ITU-T G.8265.1 is an international telecommunications standard that specifies the use of packet-based timing protocols over IP networks to distribute frequency synchronization, particularly for mobile and packet-based services.
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B.
IEEE Standards Association
The IEEE Standards Association is a leading global organization that develops and maintains technical standards across a wide range of industries, including electronics, communications, and information technology.
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C.
SMPTE ST 2059
SMPTE ST 2059 is a professional media industry standard that defines how to use IEEE 1588 Precision Time Protocol to synchronize clocks and signals across IP-based audio, video, and broadcast systems.
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D.
IEEE 802.3af Power over Ethernet standard
The IEEE 802.3af Power over Ethernet standard defines a method for delivering electrical power along with data over standard Ethernet cabling to devices such as IP phones, wireless access points, and network cameras.
-
E.
IEEE 802.1Qbv time‑sensitive networking standard
The IEEE 802.1Qbv time‑sensitive networking standard defines enhancements to Ethernet scheduling that enable deterministic, low-latency communication for time-critical applications such as industrial automation and automotive networks.
- F. None of above. chosen
- G. Unsure - the case is ambiguous/there is not enough information to decide.
Target entity: IEEE 1532 Target entity description: IEEE 1532 is an extension of the JTAG boundary-scan standard that defines in-system programming and configuration procedures for programmable devices such as FPGAs and CPLDs.
-
A.
ITU-T G.8265.1
ITU-T G.8265.1 is an international telecommunications standard that specifies the use of packet-based timing protocols over IP networks to distribute frequency synchronization, particularly for mobile and packet-based services.
-
B.
IEEE Standards Association
The IEEE Standards Association is a leading global organization that develops and maintains technical standards across a wide range of industries, including electronics, communications, and information technology.
-
C.
SMPTE ST 2059
SMPTE ST 2059 is a professional media industry standard that defines how to use IEEE 1588 Precision Time Protocol to synchronize clocks and signals across IP-based audio, video, and broadcast systems.
-
D.
IEEE 802.3af Power over Ethernet standard
The IEEE 802.3af Power over Ethernet standard defines a method for delivering electrical power along with data over standard Ethernet cabling to devices such as IP phones, wireless access points, and network cameras.
-
E.
IEEE 802.1Qbv time‑sensitive networking standard
The IEEE 802.1Qbv time‑sensitive networking standard defines enhancements to Ethernet scheduling that enable deterministic, low-latency communication for time-critical applications such as industrial automation and automotive networks.
- F. None of above. chosen
Statements (42)
| Predicate | Object |
|---|---|
| instanceOf |
IEEE standard
ⓘ
electronics test standard ⓘ |
| abbreviation |
IEEE 1532
self-linksurface differs
ⓘ
surface form:
IEEE Std 1532
|
| appliesTo |
CPLDs
ⓘ
FPGAs ⓘ configuration PROMs ⓘ other programmable devices with JTAG interfaces ⓘ programmable logic devices ⓘ |
| basedOn | JTAG boundary-scan architecture ⓘ |
| benefit |
enables standardized programming across multiple vendors
ⓘ
simplifies field reconfiguration of programmable devices ⓘ |
| defines |
in-system configuration procedures for programmable devices
ⓘ
in-system programming procedures for programmable devices ⓘ |
| domain |
design for testability
ⓘ
programmable logic configuration ⓘ |
| extends |
IEEE 1149.1 JTAG boundary‑scan standard
ⓘ
surface form:
IEEE 1149.1
|
| fullName |
IEEE 1532
self-linksurface differs
ⓘ
surface form:
IEEE Standard for In-System Configuration of Programmable Devices
|
| goal |
enable interoperable in-system programming tools
ⓘ
reduce dependence on vendor-specific programming algorithms ⓘ |
| publishedBy | Institute of Electrical and Electronics Engineers ⓘ |
| relatedTo |
IEEE 1149.1 JTAG boundary‑scan standard
ⓘ
surface form:
IEEE 1149.1
IEEE 1149.6 ⓘ boundary-scan testing ⓘ in-system configuration (ISC) ⓘ in-system programming (ISP) ⓘ |
| specifies |
JTAG data register usage for in-system programming
ⓘ
JTAG instruction usage for in-system programming ⓘ procedures for device configuration operations ⓘ procedures for device erase operations ⓘ procedures for device program operations ⓘ procedures for device verify operations ⓘ |
| standardizes |
JTAG-based in-system configuration flows
ⓘ
JTAG-based in-system programming flows ⓘ |
| supports |
board-level in-system programming
ⓘ
field updates of programmable devices ⓘ multi-device programming chains ⓘ vendor-independent programming flows ⓘ |
| usedBy |
CPLD programming tools
ⓘ
FPGA configuration tools ⓘ board test and programming systems ⓘ |
| usesInterface |
IEEE 1149.1 JTAG boundary‑scan standard
ⓘ
surface form:
IEEE 1149.1 Test Access Port
|
| usesMechanism | boundary-scan for access to configuration resources ⓘ |
How these facts were elicited
The pipeline generated the facts above by prompting gpt-5.1 with this entity's name + description and the instruction below.
You are a knowledge base construction expert. Given a subject entity and a description of it, return factual statements that you know for the subject as a JSON list of dictionaries(triples), where keys must be "subject", "predicate" and "object". The number of facts may be very high, between 25 to 50 or more, for very popular subjects. For less popular subjects, the number of facts can be very low, like 5 or 10. # Requirements - If you don't know the subject at all, return an empty list. - If the subject is not a named entity, return an empty list. - Include at least one triple where predicate is "instanceOf". - Do not get too wordy. - Separate several objects into multiple triples with one object.
Subject: IEEE 1532 Description of subject: IEEE 1532 is an extension of the JTAG boundary-scan standard that defines in-system programming and configuration procedures for programmable devices such as FPGAs and CPLDs.
Referenced by (4)
Full triples — surface form annotated when it differs from this entity's canonical label.