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diff --git a/express/express-c-series-aff220-deploy_where_to_find_additional_information.adoc b/express/express-c-series-aff220-deploy_where_to_find_additional_information.adoc
@@ -27,4 +27,4 @@ http://docs.netapp.com[http://docs.netapp.com^]
 
 * FlexPod Express with VMware vSphere 6.7 and NetApp AFF A220 Design Guide
 +
-https://www.netapp.com/us/media/nva-1125-design.pdf[https://www.netapp.com/us/media/nva-1125-design.pdf^]
+https://docs.netapp.com/us-en/flexpod/express/express-c-series-aff220-design_executive_summary.html[https://www.netapp.com/us/media/nva-1125-design.pdf^]
diff --git a/express/express-c-series-aff220-design_design_choices.adoc b/express/express-c-series-aff220-design_design_choices.adoc
@@ -42,7 +42,7 @@ Also, root-data partitioning can be leveraged on the AFF A220 system. This parti
 
 image:express-c-series-aff220-design_image6.png[Error: Missing Graphic Image]
 
-These are just a few key features that complement the FlexPod Express solution. For details about the additional features and functionality of ONTAP 9.4, see the https://www.netapp.com/us/media/ds-3231.pdf[ONTAP 9 Data Management Software datasheet^]. Also, see the NetApp http://docs.netapp.com/ontap-9/index.jsp[ONTAP 9 Documentation Center^], which has been updated to include ONTAP 9.4.
+These are just a few key features that complement the FlexPod Express solution. For details about the additional features and functionality of ONTAP 9.4, see the https://www.netapp.com/pdf.html?item=/media/7413-ds-3231.pdf[ONTAP 9 Data Management Software datasheet^]. Also, see the NetApp http://docs.netapp.com/ontap-9/index.jsp[ONTAP 9 Documentation Center^], which has been updated to include ONTAP 9.4.
 
 == Cisco Nexus 3000 Series
 

diff --git a/express/express-c-series-aff220-design_where_to_find_additional_information.adoc b/express/express-c-series-aff220-design_where_to_find_additional_information.adoc
@@ -28,4 +28,4 @@ https://docs.netapp.com[https://docs.netapp.com^]
 
 * FlexPod Express with VMware vSphere 6.7 and NetApp AFF A220 Deployment Guide
 +
-https://www.netapp.com/us/media/nva-1123-deploy.pdf[https://www.netapp.com/us/media/nva-1123-deploy.pdf^]
+https://docs.netapp.com/us-en/flexpod/express/express-c-series-aff220-deploy_program_summary.html[https://www.netapp.com/us/media/nva-1123-deploy.pdf^]
diff --git a/express/express-c-series-c190-deploy_where_to_find_additional_information.adoc b/express/express-c-series-c190-deploy_where_to_find_additional_information.adoc
@@ -29,4 +29,4 @@ FlexPod Express with Guide
 
 NVA-1139-DESIGN: FlexPod Express with Cisco UCS C-Series and NetApp AFF C190 Series
 
-https://www.netapp.com/us/media/nva-1139-design.pdf[https://www.netapp.com/us/media/nva-1139-design.pdf^]
+https://docs.netapp.com/us-en/flexpod/express/express-c-series-c190-design_executive_summary.html[https://www.netapp.com/us/media/nva-1139-design.pdf^]
diff --git a/fp-def/dc-tech-spec_flexpod_platforms.adoc b/fp-def/dc-tech-spec_flexpod_platforms.adoc
@@ -22,6 +22,6 @@ summary:
 There are two FlexPod platforms:
 
 * *FlexPod Datacenter.* This platform is a massively scalable virtual data center infrastructure that is suited for workload enterprise applications; virtualization; virtual desktop infrastructure (VDI); and public, private, and hybrid cloud workloads.
-* *FlexPod Express.* This platform is a compact converged infrastructure that is targeted to remote office and edge use cases. FlexPod Express has its own specifications that are documented in the https://www.netapp.com/us/media/tr-4293.pdf[FlexPod Express Technical Specifications.^]
+* *FlexPod Express.* This platform is a compact converged infrastructure that is targeted to remote office and edge use cases. FlexPod Express has its own specifications that are documented in the https://docs.netapp.com/us-en/flexpod/fp-def/fp-express-tech-spec_overview.html[FlexPod Express Technical Specifications.^]
 
 This document provides the technical specifications for the FlexPod Datacenter platform.
diff --git a/fp-def/dc-tech-spec_netapp_components.adoc b/fp-def/dc-tech-spec_netapp_components.adoc
@@ -98,5 +98,5 @@ NetApp SupportEdge Premium licenses are required for the FlexPod architecture, b
 |SupportEdge Premium 4 hours on site—months: 36
 |CS-O2-4HR
 |
-https://www.netapp.com/us/media/supportedge-premium-product-description.pdf[NetApp SupportEdge Premium]
+https://www.netapp.com/pdf.html?item=/media/8745-supportedge-premium-product-description.pdf[NetApp SupportEdge Premium^]
 |===
diff --git a/fp-def/dc-tech-spec_optional_features.adoc b/fp-def/dc-tech-spec_optional_features.adoc
@@ -59,7 +59,7 @@ The following figure illustrates the Flexpod Datacenter for FC with Cisco MDS.
 
 More details about the FlexPod configurations and performance benefits, see https://www.cisco.com/c/en/us/products/collateral/servers-unified-computing/ucs-b-series-blade-servers/whitepaper-c11-741907.html[Introducing End-to-End NVMe for FlexPod White Paper.^]
 
-For more information about ONTAP implementation, see https://www.netapp.com/us/media/tr-4684.pdf[TR-4684: Implementing and Configuring Modern SANs with NVMe^].
+For more information about ONTAP implementation, see https://www.netapp.com/pdf.html?item=/media/10681-tr4684pdf.pdf[TR-4684: Implementing and Configuring Modern SANs with NVMe^].
 
 image:dc-tech-spec_image3.png[Error: Missing Graphic Image]
 

diff --git a/fp-def/dc-tech-spec_technical_specifications_and_references.adoc b/fp-def/dc-tech-spec_technical_specifications_and_references.adoc
@@ -331,19 +331,19 @@ All available models of FAS storage controllers are supported for use in a FlexP
 
 |FAS9000 Series
 |
-https://www.netapp.com/us/media/ds-3810.pdf[FAS9000 Series Datasheet]
+https://www.netapp.com/pdf.html?item=/media/8939-ds-3810.pdf[FAS9000 Series Datasheet^]
 |FAS8700 Series
 |
-https://www.netapp.com/us/media/ds-4020.pdf[FAS8700 Series Datasheet]
+https://www.netapp.com/pdf.html?item=/media/7819-ds-4020.pdf[FAS8700 Series Datasheet^]
 |FAS8300 Series
 |
-https://www.netapp.com/us/media/ds-4020.pdf[FAS8300 Series Datasheet]
+https://www.netapp.com/pdf.html?item=/media/7819-ds-4020.pdf[FAS8300 Series Datasheet^]
 |FAS500f Series
 |
 https://docs.netapp.com/us-en/ontap-systems/fas500f/index.html[FAS500f Series Datasheet]
 |FAS2700 Series
 |
-https://www.netapp.com/us/media/ds-3929.pdf[FAS2700 Series Datasheet]
+https://www.netapp.com/pdf.html?item=/media/8937-ds-3929.pdf[FAS2700 Series Datasheet^]
 |===
 
 === AFF A-Series

diff --git a/fp-def/fp-express-tech-spec_optional_features.adoc b/fp-def/fp-express-tech-spec_optional_features.adoc
@@ -47,4 +47,4 @@ The following figure illustrates the FlexPod Express with Cisco UCS- managed con
 
 image:fp-express-tech-spec_image3.png[Error: Missing Graphic Image]
 
-For more information about this configuration, see https://www.netapp.com/us/media/nva-1131-deploy.pdf[FlexPod Express with VMware vSphere 6.7U1 and NetApp AFF A220 with Direct - Attached IP - Based Storage^].
+For more information about this configuration, see https://docs.netapp.com/us-en/flexpod/express/express-direct-attach-aff220-deploy_program_summary.html[FlexPod Express with VMware vSphere 6.7U1 and NetApp AFF A220 with Direct - Attached IP - Based Storage^].
diff --git a/fp-def/fp-express-tech-spec_previous_architectures_and_equipment.adoc b/fp-def/fp-express-tech-spec_previous_architectures_and_equipment.adoc
@@ -62,11 +62,11 @@ image:fp-express-tech-spec_image6.png[Error: Missing Graphic Image]
 
 Previous FlexPod Express verified architectures are still supported. The architecture and deployment documents include:
 
-* link:http://www.netapp.com/us/media/nva-0016-flexpod-express.pdf[FlexPod Express with Cisco UCS C-Series and NetApp FAS2500 Series]
-* link:http://www.netapp.com/us/media/nva-0020-deploy.pdf[FlexPod Express with VMware vSphere 6.0: Small and Medium Configurations]
-* link:http://www.netapp.com/us/media/nva-0017-flexpod-express.pdf[FlexPod Express with VMware vSphere 6.0: Large Configuration]
-* link:http://www.netapp.com/us/media/nva-0021-deploy.pdf[FlexPod Express with Microsoft Windows Server 2012 R2 Hyper-V: Small and Medium Configurations]
-* link:http://www.netapp.com/us/media/tr-4350.pdf[FlexPod Express with Microsoft Windows Server 2012 R2 Hyper-V: Large Configuration]
+* link:https://www.netapp.com/pdf.html?item=/media/12441-nva-0016-flexpod-express.pdf[FlexPod Express with Cisco UCS C-Series and NetApp FAS2500 Series^]
+* link:https://www.netapp.com/pdf.html?item=/media/12442-nva-0020-deploy.pdf[FlexPod Express with VMware vSphere 6.0: Small and Medium Configurations^]
+* link:https://www.netapp.com/pdf.html?item=/media/12443-nva-0017-flexpod-express.pdf[FlexPod Express with VMware vSphere 6.0: Large Configuration^]
+* link:https://www.netapp.com/pdf.html?item=/media/12444-nva-0021-deploypdf.pdf[FlexPod Express with Microsoft Windows Server 2012 R2 Hyper-V: Small and Medium Configurations^]
+* link:https://www.netapp.com/pdf.html?item=/media/12445-tr-4350.pdf[FlexPod Express with Microsoft Windows Server 2012 R2 Hyper-V: Large Configuration^]
 
 === Previous hardware
 

diff --git a/fp-def/fp-express-tech-spec_technical_specifications_and_references.adoc b/fp-def/fp-express-tech-spec_technical_specifications_and_references.adoc
@@ -385,7 +385,7 @@ The following table lists the datasheets for the current E-Series storage contro
 
 |E2800
 |
-http://www.netapp.com/us/media/ds-3805.pdf
+https://www.netapp.com/pdf.html?item=/media/7573-ds-3805.pdf
 |===
 
 == E-Series adapters

diff --git a/healthcare/ehr-meditech-deploy_overview.adoc b/healthcare/ehr-meditech-deploy_overview.adoc
@@ -189,7 +189,7 @@ The I/O characteristic of each MEDITECH host and the system as a whole depends o
 
 The MEDITECH Expanse platform generates the most demanding workload because it has the highest percentage of write operations and overall IOPS per host, followed by 6.x, C/S 5.x, and the MAGIC platforms.
 
-For more details about the MEDITECH workload descriptions, see https://www.netapp.com/us/media/tr-4190.pdf[TR-4190: NetApp Sizing Guidelines for MEDITECH Environments^].
+For more details about the MEDITECH workload descriptions, see https://www.netapp.com/pdf.html?item=/media/19872-tr-4190.pdf[TR-4190: NetApp Sizing Guidelines for MEDITECH Environments^].
 
 === Storage network
 

diff --git a/healthcare/ehr-meditech-sizing_additional_information.adoc b/healthcare/ehr-meditech-sizing_additional_information.adoc
@@ -31,7 +31,7 @@ https://fieldportal.netapp.com/content/248456[https://fieldportal.netapp.com/con
 
 * NetApp Sizing Guidelines for MEDITECH Environments.
 +
-http://www.netapp.com/us/media/tr-4190.pdf[www.netapp.com/us/media/tr-4190.pdf^]
+https://www.netapp.com/pdf.html?item=/media/19872-tr-4190.pdf[www.netapp.com/us/media/tr-4190.pdf^]
 
 * FlexPod Datacenter for Epic EHR Deployment
 +

diff --git a/healthcare/ehr-meditech-sizing_introduction.adoc b/healthcare/ehr-meditech-sizing_introduction.adoc
@@ -73,8 +73,8 @@ This document is intended for NetApp and partner systems engineers and NetApp Pr
 
 The following technical reports and other documents are relevant to this Technical Report, and make up a complete set of documents required for sizing, designing, and deploying MEDITECH on FlexPod infrastructure.
 
-* https://www.netapp.com/us/media/tr-4753.pdf[TR-4753: FlexPod Datacenter for MEDITECH Deployment Guide^]
-* https://www.netapp.com/us/media/tr-4190.pdf[TR-4190: NetApp Sizing Guidelines for MEDITECH Environments^]
+* https://docs.netapp.com/us-en/flexpod/healthcare/ehr-meditech-deploy_overview.html[TR-4753: FlexPod Datacenter for MEDITECH Deployment Guide^]
+* https://www.netapp.com/pdf.html?item=/media/19872-tr-4190.pdf[TR-4190: NetApp Sizing Guidelines for MEDITECH Environments^]
 * https://fieldportal.netapp.com/content/248456[TR-4319: NetApp Deployment Guidelines for MEDITECH Environments^]
 
 [NOTE]

diff --git a/...thcare/flexpod-genomics-benefits-of-deploying-genomic-workloads-on-flexpod.adoc b/...thcare/flexpod-genomics-benefits-of-deploying-genomic-workloads-on-flexpod.adoc
@@ -42,7 +42,7 @@ Ultimately FlexPod helps simplify IT operations and lower operating costs, and i
 image:flexpod-genomics-image3.png[Error: Missing Graphic Image]
 
 * *Enable genomics interoperability.* ONTAP FlexCache is a remote caching capability that simplifies file distribution, reduces WAN latency,  and lowers WAN bandwidth costs, ( https://www.netapp.com/knowledge-center/what-is-flex-cache/[ref^]). One of the key activities during genomic variant identification and annotation is collaboration between clinicians. ONTAP FlexCache technology increases data throughput even when collaborating clinicians are in different geographic locations. Given the typical size of a *.BAM file (1GB to 100s of GB), it is critical that the underlying platform can make files available to clinicians in different geographic locations. FlexPod with ONTAP FlexCache makes genomic data and applications truly multisite ready, which makes collaboration between researchers located around the world seamless with low latency and high throughput. Healthcare organizations running genomics applications in a multisite setting can scale-out using the data fabric to balance manageability with cost and speed.
-* *Intelligent use of storage platform.* FlexPod with ONTAP auto-tiering and NetApp Fabric Pool technology simplifies data management. FabricPool helps reduce storage costs without compromising performance, efficiency, security, or protection. FabricPool is transparent to enterprise applications and capitalizes on cloud efficiencies by lowering storage TCO without the need to rearchitect the application infrastructure. FlexPod can benefit from the storage tiering capabilities of FabricPool to make more efficient use of ONTAP flash storage. For more information, see https://www.netapp.com/us/media/tr-4801.pdf[FlexPod with FabricPool^]. The following diagram provides a high-level overview of FabricPool and its benefits.
+* *Intelligent use of storage platform.* FlexPod with ONTAP auto-tiering and NetApp Fabric Pool technology simplifies data management. FabricPool helps reduce storage costs without compromising performance, efficiency, security, or protection. FabricPool is transparent to enterprise applications and capitalizes on cloud efficiencies by lowering storage TCO without the need to rearchitect the application infrastructure. FlexPod can benefit from the storage tiering capabilities of FabricPool to make more efficient use of ONTAP flash storage. For more information, see https://docs.netapp.com/us-en/flexpod/hybrid-cloud/cloud-fabricpool_introduction.html[FlexPod with FabricPool^]. The following diagram provides a high-level overview of FabricPool and its benefits.
 
 image:flexpod-genomics-image4.png[Error: Missing Graphic Image]
 

diff --git a/healthcare/flexpod-genomics-conclusion.adoc b/healthcare/flexpod-genomics-conclusion.adoc
@@ -45,7 +45,7 @@ https://www.flexpod.com/idc-white-paper/[https://www.flexpod.com/idc-white-paper
 
 * AI in healthcare
 +
-https://www.netapp.com/us/media/na-369.pdf[https://www.netapp.com/us/media/na-369.pdf^]
+https://www.netapp.com/pdf.html?item=/media/7393-na-369pdf.pdf[https://www.netapp.com/us/media/na-369.pdf^]
 
 * FlexPod for healthcare Ease Your Transformation
 +

diff --git a/healthcare/medical-imaging_additional_information.adoc b/healthcare/medical-imaging_additional_information.adoc
@@ -31,7 +31,7 @@ https://www.cisco.com/c/en/us/td/docs/unified_computing/ucs/UCS_CVDs/flexpod_dat
 
 * FlexPod Datacenter Oracle Database Backup with SnapCenter Solution Brief
 +
-https://www.netapp.com/us/media/sb-3999.pdf[https://www.netapp.com/us/media/sb-3999.pdf^]
+https://www.netapp.com/pdf.html?item=/media/16973-sb-3999pdf.pdf[https://www.netapp.com/us/media/sb-3999.pdf^]
 
 * FlexPod Datacenter with Oracle RAC Databases on Cisco UCS and NetApp AFF A-Series
 +
@@ -55,7 +55,7 @@ https://fieldportal.netapp.com/content/734702[https://fieldportal.netapp.com/con
 
 * TR-4700: SnapCenter Plug-In for Oracle Database
 +
-https://www.netapp.com/us/media/tr-4700.pdf[https://www.netapp.com/us/media/tr-4700.pdf^]
+https://www.netapp.com/pdf.html?item=/media/12403-tr4700pdf.pdf[https://www.netapp.com/us/media/tr-4700.pdf^]
 
 * NetApp Product Documentation
 +

diff --git a/healthcare/medical-imaging_architecture.adoc b/healthcare/medical-imaging_architecture.adoc
@@ -48,7 +48,7 @@ NetApp SnapMirror provides industry leading data replication capabilities that h
 * Preserve storage-efficiency benefits on the primary storage during transport—including deduplication, compression, and compaction.
 * Deliver additional inline efficiencies with network compression.
 
-More information can be found https://www.netapp.com/us/media/ds-3820.pdf[here^].
+More information can be found https://www.netapp.com/pdf.html?item=/media/8327-ds-3820.pdf[here^].
 
 The table below lists each tier that a typical medical imaging system requires for specific latency and the throughput performance characteristics.
 
@@ -202,7 +202,7 @@ A typical medical imaging system uses an N- tiered architecture. The core compon
 
 A typical medical imaging system provides access to images for two distinct set of users: diagnostic user/radiologist, or the clinician or physician that ordered the imaging.
 
-Radiologists typically use high- end, graphics- enabled diagnostic viewers that are running on high- end compute and graphics workstations that are either physical or part of a virtual desktop infrastructure. If you are about to start your virtual desktop infrastructure journey, more information can be found https://www.netapp.com/us/media/na-flexpod-vdi.pdf[here^].
+Radiologists typically use high- end, graphics- enabled diagnostic viewers that are running on high- end compute and graphics workstations that are either physical or part of a virtual desktop infrastructure. If you are about to start your virtual desktop infrastructure journey, more information can be found https://www.netapp.com/pdf.html?item=/media/19872-tr-4190.pdf[here^].
 
 When hurricane Katrina destroyed two of Louisiana’s major teaching hospitals, leaders came together and built a resilient electronic health record system that included over 3000 virtual desktops in record time. More information on use cases reference architecture and FlexPod reference bundles can be found https://blog.netapp.com/virtual-desktop-infrastructure-bundles[here^].
 
@@ -215,7 +215,7 @@ The medical imaging system can provide image access to a community of physicians
 
 Medical imaging systems can also support academic medical centers that need PACS or imaging systems for use in a classroom. To support academic activities, a typical medical imaging system can have the capabilities of a PACS system in a smaller footprint or a teaching- only imaging environment. Typical vendor- neutral archiving systems and some enterprise- class medical imaging systems offer DICOM image tag morphing capabilities to anonymize the images that are used for teaching purposes. Tag morphing enables healthcare organization to exchange DICOM images between different vendor medical imaging systems in a vendor- neutral fashion. Also, tag morphing enables medical imaging systems to implement an enterprise- wide, vendor- neutral archival capability for medical images.
 
-Medical imaging systems are starting to use https://www.netapp.com/us/media/sb-flexpod-datacenter-ai.pdf[GPU-based compute capabilities^] to enhance human workflows by preprocessing the images and thus improving efficiencies. Typical enterprise medical imaging systems take advantage of industry- leading NetApp storage efficiency capabilities. Enterprise medical imaging systems typically use RMAN for backup, recovery, and restore activities. For better performance and to reduce the time that it takes to create backups, Snapshot technology is available for backup operations and SnapMirror technology is available for replication.
+Medical imaging systems are starting to use https://www.netapp.com/pdf.html?item=/media/7398-sb-flexpod-datacenter-aipdf.pdf[GPU-based compute capabilities^] to enhance human workflows by preprocessing the images and thus improving efficiencies. Typical enterprise medical imaging systems take advantage of industry- leading NetApp storage efficiency capabilities. Enterprise medical imaging systems typically use RMAN for backup, recovery, and restore activities. For better performance and to reduce the time that it takes to create backups, Snapshot technology is available for backup operations and SnapMirror technology is available for replication.
 
 The figure below shows the logical application components in a layered architectural view.
Original file line number	Diff line number	Diff line change
Expand Up		@@ -29,4 +29,4 @@ FlexPod Express with Guide

		NVA-1139-DESIGN: FlexPod Express with Cisco UCS C-Series and NetApp AFF C190 Series

		https://www.netapp.com/us/media/nva-1139-design.pdf[https://www.netapp.com/us/media/nva-1139-design.pdf^]
		https://docs.netapp.com/us-en/flexpod/express/express-c-series-c190-design_executive_summary.html[https://www.netapp.com/us/media/nva-1139-design.pdf^]
Original file line number	Diff line number	Diff line change
Expand Up		@@ -47,4 +47,4 @@ The following figure illustrates the FlexPod Express with Cisco UCS- managed con

		image:fp-express-tech-spec_image3.png[Error: Missing Graphic Image]

		For more information about this configuration, see https://www.netapp.com/us/media/nva-1131-deploy.pdf[FlexPod Express with VMware vSphere 6.7U1 and NetApp AFF A220 with Direct - Attached IP - Based Storage^].
		For more information about this configuration, see https://docs.netapp.com/us-en/flexpod/express/express-direct-attach-aff220-deploy_program_summary.html[FlexPod Express with VMware vSphere 6.7U1 and NetApp AFF A220 with Direct - Attached IP - Based Storage^].
-Original file line number
+Diff line change
@@ Expand Up @@
     |E2800
     |
-    http://www.netapp.com/us/media/ds-3805.pdf
+    https://www.netapp.com/pdf.html?item=/media/7573-ds-3805.pdf
     |===
     == E-Series adapters
@@ Expand Down @@