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IAO Architecture

End-to-End Integrated Processes (E2E)

TOGAF BDAT — Aggregated Architecture View

Tower: End-to-End Integrated Processes (E2E) · R1 – R5

IAO Program · R1 – R5
Generated: April 2026
Sajiv Francis

IAO Architecture Pipeline — Intel Confidential

Page 1↑ Back to TOCEnd-to-End Integrated Processes (E2E)

Table of Contents

Page 2↑ Back to TOCEnd-to-End Integrated Processes (E2E)

1 Executive Summary

This L0 summary aggregates architecture diagrams from 53 L2 capabilities across Tower: End-to-End Integrated Processes (E2E) · R1 – R5.

The diagrams below show the consolidated current-state and future-state system landscape without duplicates — each system and connection appears only once even when shared across capabilities. For detailed data flows, integration patterns, technology stacks, and business architecture, refer to the individual L2 capability documents linked in §6 Capability Detail Reference.

Metric Current-State Future-State Delta
Unique Systems 2 2 +0
System Connections 1 1 +0
Total Flow Hops 53 53 +0
Capabilities Covered 53 53
Page 3↑ Back to TOCEnd-to-End Integrated Processes (E2E)

2 Capability Inventory

The following 53 capabilities are aggregated in this summary. Click a capability ID to view its full TOGAF BDAT architecture document.

# Capability ID Capability Name L1 Process Group Current Hops Future Hops
1 E2E-80 R2A Option 1 Customer Requests Expedite - Service Fee with Existing SO E2E-80 R2 Customer Requests Expedite 1 1
2 E2E-08 E2E-08 Forecast to Stock 1 1
3 E2E-110 IMR Flow Forecast to Stock 1 1
4 E2E-113 R3 IMR Labs Process Forecast to Stock 1 1
5 E2E-117 E2E-117 Forecast to Stock 1 1
6 E2E-118 E2E-118 Forecast to Stock 1 1
7 E2E-122 E2E-122 Forecast to Stock 1 1
8 E2E-45 E2E-45 Forecast to Stock 1 1
9 E2E-67 E2E-67 Forecast to Stock 1 1
10 E2E-68 -Intel Foundry NPI planning and execution processes Forecast to Stock 1 1
11 E2E-71 E2E-71 Forecast to Stock 1 1
12 E2E-72 IP Forecast to Stock 1 1
13 E2E-73 R3 Hybrid Manufacturing process with external Wafer Procurement & Internal processing of Forecast to Stock 1 1
14 E2E-74 R3 Internal manufacturing process for Finished Goods in Intel Foundry with Planning integrati Forecast to Stock 1 1
15 E2E-76 Internal manufacturing process for Finished Goods in Intel Foundry with sales to External cus Forecast to Stock 1 1
16 E2E-84 Intel Foundry - Inventory Transfer Shipment of goods through Stock transfer (Interim State) Forecast to Stock 1 1
17 E2E-94 R3 Intel Foundry Maintenance process through spare parts (SWAP) Forecast to Stock 1 1
18 E2E-89 R3 Customer Master Data Master Data 1 1
19 E2E-90 R3 Material Master Data Master Data 1 1
20 E2E-91 R3 Bill of Material BOM Data Master Data 1 1
21 E2E-92 R3 Vendor Master Data Master Data 1 1
22 IF_Simplified_PO-SO_Model IF Simplified PO-SO Model Order to Cash 1 1
23 Order_to_Cash_IF Order to Cash (IF) Order to Cash 1 1
24 Order_to_Cash_IP Order to Cash (IP) Order to Cash 1 1
25 E2E-100 R3 - Purchase Requisition to Payments for Direct procurement with Planning Integration (Box Procure to Pay 1 1
26 E2E-103 R3 Procurement of WIINGS Replacement Related Commodities Procure to Pay 1 1
27 E2E-107 R3 - Partner Owned Equipment Order Procure to Pay 1 1
28 E2E-112 R3 Raw Silicon Procurement Procure to Pay 1 1
29 E2E-114 R4 SIMS Harvest Process Procure to Pay 1 1
30 E2E-115 R3 Inter-company Asset Transfer Process Procure to Pay 1 1
31 E2E-116 R3 Wafer Reclaim Process Procure to Pay 1 1
32 E2E-119 R3 Shipping Rejects Inventory Movement Procure to Pay 1 1
33 E2E-121 R3 RM Bailed Inventory Movement (Straddle) Procure to Pay 1 1
34 E2E-123 TD Substrates Manufacturing Process Procure to Pay 1 1
35 E2E-40 R3 Sourcing Request-Project to Contracts for Direct-Capital on Ariba with Pricing Updates Procure to Pay 1 1
36 E2E-41 R3 Sourcing Request Procure to Pay 1 1
37 E2E-43 Process Procurement Card Invoice Procure to Pay 1 1
38 E2E-44 R3 - Intel Owned Consignment with Planning Integration Procure to Pay 1 1
39 E2E-46 R3 Direct procurement with Planning Integration-AT Procure to Pay 1 1
40 E2E-47 Purchase Requisition to Payments for Direct procurement with planning integration - Fab Mater Procure to Pay 1 1
41 E2E-49 R3 Purchase Requisition to Payments for procurement with financial planning and asset managem Procure to Pay 1 1
42 E2E-50 Purchase Requisition to Payments for Indirect - Construction (Small Construction IPCS, Mainte Procure to Pay 1 1
43 E2E-51 Purchase Requisition to Payments for Indirect Materials (Non-IPN and Non-Inventoried) ​ Procure to Pay 1 1
44 E2E-52 Purchase Requisition to Payments for Indirect Non-Mfg. & Mfg. procurement Procure to Pay 1 1
45 E2E-53 Purchase Requisition to Payments for Indirect procurement (simple material or services like H Procure to Pay 1 1
46 E2E-57 R3 Subcontracting with Planning integration- Foundry,OSAT,ODM Procure to Pay 1 1
47 E2E-59 R3 Rework Re-localization in Factory​ Procure to Pay 1 1
48 E2E-61 R3 Consignment Material - Vendor Procure to Pay 1 1
49 E2E-62 R3 Vendor Return for Direct Material Procure to Pay 1 1
50 E2E-70 R3 - Substrates - (PTP) PR to PO scope for Internal Manufacturing (Intel Foundry) & Exte Procure to Pay 1 1
51 E2E-88 R3 Construction materials & equipment procurement process inclusive of OFCI (Like equipme Procure to Pay 1 1
52 E2E-96 R3 Straddle & R4 SIMS Design with Returns Procure to Pay 1 1
53 E2E-98 R3 Equipment Product Supporting Items (PSI) Procurement Procure to Pay 1 1
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3 Current-State Architecture

Aggregated current-state: 2 systems, 1 connections, 53 flow hops.

3.1 Application Architecture

System-to-system integration flows. Color indicates IAPM lifecycle status (green = deployed, blue = developing, red = end-of-life).

graph TB %% -- ArchiMate 3.2 + Azure style classes -- classDef business fill:#FFFFB3,stroke:#F9A825,stroke-width:2px,color:#000 classDef app fill:#CCE5FF,stroke:#0078D4,stroke-width:2px,color:#003A6C classDef data fill:#BBDEFB,stroke:#1565C0,stroke-width:1px,color:#0D47A1,stroke-dasharray: 5 5 classDef middleware fill:#FFE0B2,stroke:#E65100,stroke-width:2px,color:#BF360C classDef eol fill:#FFCDD2,stroke:#C62828,stroke-width:2px,color:#B71C1C classDef saas fill:#E1BEE7,stroke:#7B1FA2,stroke-width:2px,color:#4A148C classDef cloud fill:#BBDEFB,stroke:#1565C0,stroke-width:2px,color:#0D47A1 classDef onprem fill:#C8E6C9,stroke:#2E7D32,stroke-width:2px,color:#1B5E20 subgraph AL["📦 Application Layer — Systems Integration"] direction LR SCA_e_g__MES_300["📦 e.g. MES 300"] SCA_e_g__XEUS["📦 e.g. XEUS"] end SCA_e_g__MES_300 -->|"e.g. Direct / API / File"| SCA_e_g__XEUS class SCA_e_g__MES_300 app class SCA_e_g__XEUS app style BL fill:#FFFDE7,stroke:#F9A825,stroke-width:2px style AL fill:#E3F2FD,stroke:#0078D4,stroke-width:2px
👁 View Diagram

3.2 Data Architecture

Applications (blue) sit above their hosting databases (green cylinders). Thick arrows show data movement between databases.

%%{init: {"theme": "base", "securityLevel": "loose", "themeVariables": {"fontSize": "15px", "fontFamily": "Segoe UI, Arial"}, "flowchart": {"useMaxWidth": false, "htmlLabels": true, "nodeSpacing": 35, "rankSpacing": 45}} }%% flowchart TB classDef appBox fill:#CCE5FF,stroke:#0078D4,stroke-width:2px,color:#003A6C classDef dbCyl fill:#C8E6C9,stroke:#2E7D32,stroke-width:2px,color:#1B5E20 classDef dbCloud fill:#BBDEFB,stroke:#0078D4,stroke-width:2px,color:#003A6C classDef dbData fill:#B2EBF2,stroke:#00838F,stroke-width:2px,color:#004D40 classDef eolBox fill:#FFCDD2,stroke:#C62828,stroke-width:2px,color:#B71C1C subgraph SCDCL_e_g_Azure_SQL[" "] direction TB SCDA_e_g_XEUS["e.g. XEUS"]:::appBox SCDD_e_g_Azure_SQL[("🗄️ e.g. Azure SQL")]:::dbCloud SCDA_e_g_XEUS -.-> SCDD_e_g_Azure_SQL end style SCDCL_e_g_Azure_SQL fill:#E8F5E9,stroke:#388E3C,stroke-width:1px subgraph SCDCL_e_g_SAP_HANA[" "] direction TB SCDA_e_g_MES_300["e.g. MES 300"]:::appBox SCDD_e_g_SAP_HANA[("🗄️ e.g. SAP HANA")]:::dbData SCDA_e_g_MES_300 -.-> SCDD_e_g_SAP_HANA end style SCDCL_e_g_SAP_HANA fill:#E3F2FD,stroke:#1976D2,stroke-width:1px SCDD_e_g_SAP_HANA ==>|"e.g. Direct / API / File"| SCDD_e_g_Azure_SQL subgraph Legend["📐 DATA ARCHITECTURE LEGEND"] direction LR L_A["Application"]:::appBox L_D[("🗄️ On-Prem DB")]:::dbCyl L_DC[("🗄️ Cloud DB")]:::dbCloud L_DD[("🗄️ Data Platform")]:::dbData L_E["End-of-Life"]:::eolBox end style Legend fill:#F5F5F5,stroke:#999,stroke-width:1px
👁 View Diagram

3.3 Technology Architecture

Applications grouped by hosting platform. Cloud platforms marked with ☁️.

%%{init: {"theme": "base", "securityLevel": "loose", "themeVariables": {"fontSize": "14px", "fontFamily": "Segoe UI, Arial"}, "flowchart": {"useMaxWidth": false, "htmlLabels": true, "nodeSpacing": 40, "rankSpacing": 50}} }%% flowchart TB classDef appBox fill:#CCE5FF,stroke:#0078D4,stroke-width:2px,color:#003A6C classDef platBox fill:#C8E6C9,stroke:#2E7D32,stroke-width:3px,color:#1B5E20 classDef eolBox fill:#FFCDD2,stroke:#C62828,stroke-width:2px,color:#B71C1C subgraph SCPP_e_g_Azure_PaaS["☁️ e.g. Azure PaaS"] direction LR SCPA_e_g_XEUS["e.g. XEUS"]:::appBox end style SCPP_e_g_Azure_PaaS fill:#BBDEFB,stroke:#0078D4,stroke-width:3px,color:#003A6C subgraph SCPP_e_g_S_4_HANA_2023["🖥️ e.g. S/4 HANA 2023"] direction LR SCPA_e_g_MES_300["e.g. MES 300"]:::appBox end style SCPP_e_g_S_4_HANA_2023 fill:#C8E6C9,stroke:#2E7D32,stroke-width:3px,color:#1B5E20 SCPP_e_g_S_4_HANA_2023 ==>|"e.g. Direct / API / File"| SCPP_e_g_Azure_PaaS subgraph SCPLegend["📐 PLATFORM LEGEND"] direction LR SCPLC["☁️ Cloud"] SCPLS["🔮 SaaS"] SCPLO["🏢 On-Prem"] SCPLD["💾 Data Platform"] SCPLM["🔗 Middleware"] end style SCPLegend fill:#F5F5F5,stroke:#999,stroke-width:1px style SCPLC fill:#BBDEFB,stroke:#0078D4,stroke-width:3px,color:#003A6C style SCPLS fill:#E1BEE7,stroke:#7B1FA2,stroke-width:3px,color:#4A148C style SCPLO fill:#C8E6C9,stroke:#2E7D32,stroke-width:3px,color:#1B5E20 style SCPLD fill:#B2EBF2,stroke:#00838F,stroke-width:3px,color:#004D40 style SCPLM fill:#FFE0B2,stroke:#E65100,stroke-width:3px,color:#BF360C
👁 View Diagram
Page 5↑ Back to TOCEnd-to-End Integrated Processes (E2E)

4 Future-State Architecture

Aggregated future-state: 2 systems, 1 connections, 53 flow hops.

4.1 Application Architecture

System-to-system integration flows. Color indicates IAPM lifecycle status (green = deployed, blue = developing, red = end-of-life).

graph TB %% -- ArchiMate 3.2 + Azure style classes -- classDef business fill:#FFFFB3,stroke:#F9A825,stroke-width:2px,color:#000 classDef app fill:#CCE5FF,stroke:#0078D4,stroke-width:2px,color:#003A6C classDef data fill:#BBDEFB,stroke:#1565C0,stroke-width:1px,color:#0D47A1,stroke-dasharray: 5 5 classDef middleware fill:#FFE0B2,stroke:#E65100,stroke-width:2px,color:#BF360C classDef eol fill:#FFCDD2,stroke:#C62828,stroke-width:2px,color:#B71C1C classDef saas fill:#E1BEE7,stroke:#7B1FA2,stroke-width:2px,color:#4A148C classDef cloud fill:#BBDEFB,stroke:#1565C0,stroke-width:2px,color:#0D47A1 classDef onprem fill:#C8E6C9,stroke:#2E7D32,stroke-width:2px,color:#1B5E20 subgraph AL["📦 Application Layer — Systems Integration"] direction LR SFA_e_g__MES_300["📦 e.g. MES 300"] SFA_e_g__XEUS["📦 e.g. XEUS"] end SFA_e_g__MES_300 -->|"e.g. Direct / API / File"| SFA_e_g__XEUS class SFA_e_g__MES_300 app class SFA_e_g__XEUS app style BL fill:#FFFDE7,stroke:#F9A825,stroke-width:2px style AL fill:#E3F2FD,stroke:#0078D4,stroke-width:2px
👁 View Diagram

4.2 Data Architecture

Applications (blue) sit above their hosting databases (green cylinders). Thick arrows show data movement between databases.

%%{init: {"theme": "base", "securityLevel": "loose", "themeVariables": {"fontSize": "15px", "fontFamily": "Segoe UI, Arial"}, "flowchart": {"useMaxWidth": false, "htmlLabels": true, "nodeSpacing": 35, "rankSpacing": 45}} }%% flowchart TB classDef appBox fill:#CCE5FF,stroke:#0078D4,stroke-width:2px,color:#003A6C classDef dbCyl fill:#C8E6C9,stroke:#2E7D32,stroke-width:2px,color:#1B5E20 classDef dbCloud fill:#BBDEFB,stroke:#0078D4,stroke-width:2px,color:#003A6C classDef dbData fill:#B2EBF2,stroke:#00838F,stroke-width:2px,color:#004D40 classDef eolBox fill:#FFCDD2,stroke:#C62828,stroke-width:2px,color:#B71C1C subgraph SFDCL_e_g_Azure_SQL[" "] direction TB SFDA_e_g_XEUS["e.g. XEUS"]:::appBox SFDD_e_g_Azure_SQL[("🗄️ e.g. Azure SQL")]:::dbCloud SFDA_e_g_XEUS -.-> SFDD_e_g_Azure_SQL end style SFDCL_e_g_Azure_SQL fill:#E8F5E9,stroke:#388E3C,stroke-width:1px subgraph SFDCL_e_g_SAP_HANA[" "] direction TB SFDA_e_g_MES_300["e.g. MES 300"]:::appBox SFDD_e_g_SAP_HANA[("🗄️ e.g. SAP HANA")]:::dbData SFDA_e_g_MES_300 -.-> SFDD_e_g_SAP_HANA end style SFDCL_e_g_SAP_HANA fill:#E3F2FD,stroke:#1976D2,stroke-width:1px SFDD_e_g_SAP_HANA ==>|"e.g. Direct / API / File"| SFDD_e_g_Azure_SQL subgraph Legend["📐 DATA ARCHITECTURE LEGEND"] direction LR L_A["Application"]:::appBox L_D[("🗄️ On-Prem DB")]:::dbCyl L_DC[("🗄️ Cloud DB")]:::dbCloud L_DD[("🗄️ Data Platform")]:::dbData L_E["End-of-Life"]:::eolBox end style Legend fill:#F5F5F5,stroke:#999,stroke-width:1px
👁 View Diagram

4.3 Technology Architecture

Applications grouped by hosting platform. Cloud platforms marked with ☁️.

%%{init: {"theme": "base", "securityLevel": "loose", "themeVariables": {"fontSize": "14px", "fontFamily": "Segoe UI, Arial"}, "flowchart": {"useMaxWidth": false, "htmlLabels": true, "nodeSpacing": 40, "rankSpacing": 50}} }%% flowchart TB classDef appBox fill:#CCE5FF,stroke:#0078D4,stroke-width:2px,color:#003A6C classDef platBox fill:#C8E6C9,stroke:#2E7D32,stroke-width:3px,color:#1B5E20 classDef eolBox fill:#FFCDD2,stroke:#C62828,stroke-width:2px,color:#B71C1C subgraph SFPP_e_g_Azure_PaaS["☁️ e.g. Azure PaaS"] direction LR SFPA_e_g_XEUS["e.g. XEUS"]:::appBox end style SFPP_e_g_Azure_PaaS fill:#BBDEFB,stroke:#0078D4,stroke-width:3px,color:#003A6C subgraph SFPP_e_g_S_4_HANA_2023["🖥️ e.g. S/4 HANA 2023"] direction LR SFPA_e_g_MES_300["e.g. MES 300"]:::appBox end style SFPP_e_g_S_4_HANA_2023 fill:#C8E6C9,stroke:#2E7D32,stroke-width:3px,color:#1B5E20 SFPP_e_g_S_4_HANA_2023 ==>|"e.g. Direct / API / File"| SFPP_e_g_Azure_PaaS subgraph SFPLegend["📐 PLATFORM LEGEND"] direction LR SFPLC["☁️ Cloud"] SFPLS["🔮 SaaS"] SFPLO["🏢 On-Prem"] SFPLD["💾 Data Platform"] SFPLM["🔗 Middleware"] end style SFPLegend fill:#F5F5F5,stroke:#999,stroke-width:1px style SFPLC fill:#BBDEFB,stroke:#0078D4,stroke-width:3px,color:#003A6C style SFPLS fill:#E1BEE7,stroke:#7B1FA2,stroke-width:3px,color:#4A148C style SFPLO fill:#C8E6C9,stroke:#2E7D32,stroke-width:3px,color:#1B5E20 style SFPLD fill:#B2EBF2,stroke:#00838F,stroke-width:3px,color:#004D40 style SFPLM fill:#FFE0B2,stroke:#E65100,stroke-width:3px,color:#BF360C
👁 View Diagram
Page 6↑ Back to TOCEnd-to-End Integrated Processes (E2E)

5 Transformation Analysis

5.1 System Landscape Changes

Category Count Systems
Added in Future State 0
Removed from Future State 0
Continuing Systems 2

Reconciliation Note: System lifecycle status is sourced from IAPM (Intel Application Portfolio Management). Systems shown as Removed from Future State are not in scope for this release but are not decommissioned unless marked EOL Path above. EOL decommissioning is planned post-R5.

5.2 Integration Complexity Delta

Page 7↑ Back to TOCEnd-to-End Integrated Processes (E2E)

6 Capability Detail Reference

For detailed architecture information, navigate to the individual L2 capability documents. Each L2 document contains the full TOGAF BDAT analysis including:

# Capability L1 Process Architecture Doc
1 R2A Option 1 Customer Requests Expedite - Service Fee with Existing SO E2E-80 R2 Customer Requests Expedite E2E-80
2 E2E-08 Forecast to Stock E2E-08
3 IMR Flow Forecast to Stock E2E-110
4 R3 IMR Labs Process Forecast to Stock E2E-113
5 E2E-117 Forecast to Stock E2E-117
6 E2E-118 Forecast to Stock E2E-118
7 E2E-122 Forecast to Stock E2E-122
8 E2E-45 Forecast to Stock E2E-45
9 E2E-67 Forecast to Stock E2E-67
10 -Intel Foundry NPI planning and execution processes Forecast to Stock E2E-68
11 E2E-71 Forecast to Stock E2E-71
12 IP Forecast to Stock E2E-72
13 R3 Hybrid Manufacturing process with external Wafer Procurement & Internal processing of Forecast to Stock E2E-73
14 R3 Internal manufacturing process for Finished Goods in Intel Foundry with Planning integrati Forecast to Stock E2E-74
15 Internal manufacturing process for Finished Goods in Intel Foundry with sales to External cus Forecast to Stock E2E-76
16 Intel Foundry - Inventory Transfer Shipment of goods through Stock transfer (Interim State) Forecast to Stock E2E-84
17 R3 Intel Foundry Maintenance process through spare parts (SWAP) Forecast to Stock E2E-94
18 R3 Customer Master Data Master Data E2E-89
19 R3 Material Master Data Master Data E2E-90
20 R3 Bill of Material BOM Data Master Data E2E-91
21 R3 Vendor Master Data Master Data E2E-92
22 IF Simplified PO-SO Model Order to Cash IF_Simplified_PO-SO_Model
23 Order to Cash (IF) Order to Cash Order_to_Cash_IF
24 Order to Cash (IP) Order to Cash Order_to_Cash_IP
25 R3 - Purchase Requisition to Payments for Direct procurement with Planning Integration (Box Procure to Pay E2E-100
26 R3 Procurement of WIINGS Replacement Related Commodities Procure to Pay E2E-103
27 R3 - Partner Owned Equipment Order Procure to Pay E2E-107
28 R3 Raw Silicon Procurement Procure to Pay E2E-112
29 R4 SIMS Harvest Process Procure to Pay E2E-114
30 R3 Inter-company Asset Transfer Process Procure to Pay E2E-115
31 R3 Wafer Reclaim Process Procure to Pay E2E-116
32 R3 Shipping Rejects Inventory Movement Procure to Pay E2E-119
33 R3 RM Bailed Inventory Movement (Straddle) Procure to Pay E2E-121
34 TD Substrates Manufacturing Process Procure to Pay E2E-123
35 R3 Sourcing Request-Project to Contracts for Direct-Capital on Ariba with Pricing Updates Procure to Pay E2E-40
36 R3 Sourcing Request Procure to Pay E2E-41
37 Process Procurement Card Invoice Procure to Pay E2E-43
38 R3 - Intel Owned Consignment with Planning Integration Procure to Pay E2E-44
39 R3 Direct procurement with Planning Integration-AT Procure to Pay E2E-46
40 Purchase Requisition to Payments for Direct procurement with planning integration - Fab Mater Procure to Pay E2E-47
41 R3 Purchase Requisition to Payments for procurement with financial planning and asset managem Procure to Pay E2E-49
42 Purchase Requisition to Payments for Indirect - Construction (Small Construction IPCS, Mainte Procure to Pay E2E-50
43 Purchase Requisition to Payments for Indirect Materials (Non-IPN and Non-Inventoried) ​ Procure to Pay E2E-51
44 Purchase Requisition to Payments for Indirect Non-Mfg. & Mfg. procurement Procure to Pay E2E-52
45 Purchase Requisition to Payments for Indirect procurement (simple material or services like H Procure to Pay E2E-53
46 R3 Subcontracting with Planning integration- Foundry,OSAT,ODM Procure to Pay E2E-57
47 R3 Rework Re-localization in Factory​ Procure to Pay E2E-59
48 R3 Consignment Material - Vendor Procure to Pay E2E-61
49 R3 Vendor Return for Direct Material Procure to Pay E2E-62
50 R3 - Substrates - (PTP) PR to PO scope for Internal Manufacturing (Intel Foundry) & Exte Procure to Pay E2E-70
51 R3 Construction materials & equipment procurement process inclusive of OFCI (Like equipme Procure to Pay E2E-88
52 R3 Straddle & R4 SIMS Design with Returns Procure to Pay E2E-96
53 R3 Equipment Product Supporting Items (PSI) Procurement Procure to Pay E2E-98
IAO Architecture Document | Intel IDM 2.0 | Generated by IAO Architecture Pipeline
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