Re-ordered so it flows a bit better

jackrichins · web-flow · commit c525b4d3d498 · 2023-03-30T14:25:51.000-07:00
diff --git a/articles/virtual-machines/disk-encryption-overview.md b/articles/virtual-machines/disk-encryption-overview.md
@@ -14,11 +14,11 @@ ms.custom: references_regions
 
 There are several types of encryption available for your managed disks, including Azure Disk Encryption (ADE), Server-Side Encryption (SSE) and encryption at host.
 
-- **Azure Disk Encryption** helps protect and safeguard your data to meet your organizational security and compliance commitments. ADE encrypts the OS and data disks of Azure virtual machines (VMs) inside your VMs by using the [DM-Crypt](https://wikipedia.org/wiki/Dm-crypt) feature of Linux or the [BitLocker](https://wikipedia.org/wiki/BitLocker) feature of Windows. ADE is integrated with Azure Key Vault to help you control and manage the disk encryption keys and secrets.  For full details, see [Azure Disk Encryption for Linux VMs](./linux/disk-encryption-overview.md) or [Azure Disk Encryption for Windows VMs](./windows/disk-encryption-overview.md).
+- **Azure Disk Storage Server-Side Encryption** (also referred to as encryption-at-rest or Azure Storage encryption) is always enabled and automatically encrypts data stored on Azure managed disks (OS and data disks) when persisting on the Storage Clusters. When configured with a Disk Encryption Set (DES), it supports customer-managed keys as well. It does not encrypt temp disks or disk caches. For full details, see [Server-side encryption of Azure Disk Storage](./disk-encryption.md).
 
-- **Azure Disk Storage Server-Side Encryption** (also referred to as encryption-at-rest or Azure Storage encryption) automatically encrypts data stored on Azure managed disks (OS and data disks) when persisting on the Storage Clusters. When configured with a Disk Encryption Set (DES), it supports customer-managed keys as well. For full details, see [Server-side encryption of Azure Disk Storage](./disk-encryption.md).
+- **Encryption at host** is a Virtual Machine option that enhances Azure Disk Storage Server-Side Encryption to ensure that all temp disks and disk caches are encrypted at rest and flow encrypted to the Storage clusters. For full details, see [Encryption at host - End-to-end encryption for your VM data](./disk-encryption.md#encryption-at-host---end-to-end-encryption-for-your-vm-data).
 
-- **Encryption at host** ensures that data stored on the VM host hosting your VM is encrypted at rest and flows encrypted to the Storage clusters. For full details, see [Encryption at host - End-to-end encryption for your VM data](./disk-encryption.md#encryption-at-host---end-to-end-encryption-for-your-vm-data).
+- **Azure Disk Encryption** helps protect and safeguard your data to meet your organizational security and compliance commitments. ADE encrypts the OS and data disks of Azure virtual machines (VMs) inside your VMs by using the [DM-Crypt](https://wikipedia.org/wiki/Dm-crypt) feature of Linux or the [BitLocker](https://wikipedia.org/wiki/BitLocker) feature of Windows. ADE is integrated with Azure Key Vault to help you control and manage the disk encryption keys and secrets.  For full details, see [Azure Disk Encryption for Linux VMs](./linux/disk-encryption-overview.md) or [Azure Disk Encryption for Windows VMs](./windows/disk-encryption-overview.md).
 
 - **Confidential disk encryption** binds disk encryption keys to the virtual machine's TPM and makes the protected disk content accessible only to the VM. The TPM and VM guest state is always encrypted in attested code using keys released by a secure protocol that bypasses the hypervisor and host operating system. Currently only available for the OS disk. Encryption at host may be used for other disks on a Confidential VM in addition to Confidential Disk Encryption. For full details, see [DCasv5 and ECasv5 series confidential VMs](../confidential-computing/confidential-vm-overview.md#confidential-os-disk-encryption).
 
@@ -28,15 +28,15 @@ Encryption is part of a layered approach to security and should be used with oth
 
 Here's a comparison of Disk Storage SSE, ADE, encryption at host, and Confidential disk encryption.
 
-| | **Azure Disk Storage Server-Side Encryption at rest** | **Azure Disk Encryption** | **Encryption at Host**  | **Confidential disk encryption** |
-|--|--|--|--|
+| | **Azure Disk Storage Server-Side Encryption** | **Encryption at Host**  | **Azure Disk Encryption** | **Confidential disk encryption** |
+|--|--|--|--|--|
 | Encryption at rest (OS and data disks) | &#x2705; | &#x2705; | &#x2705; | &#x2705; For the OS disk only | 
 | Temp disk encryption | &#10060; | &#x2705; | &#x2705; | &#10060; |
 | Encryption of caches | &#10060; | &#x2705; | &#x2705; | &#x2705; For the OS disk only |
 | Data flows encrypted between Compute and Storage | &#10060; | &#x2705; | &#x2705; | &#x2705; For the OS disk only |
-| Customer control of keys | &#x2705; When configured with DES | &#x2705; | &#x2705; | &#x2705; For the OS disk only |
-| Does not use your VM's CPU | &#x2705; | &#10060; | &#x2705; | &#10060; |
-| Works for custom images | &#x2705; | &#10060; Does not work for custom Linux images | &#x2705; | &#x2705; |
+| Customer control of keys | &#x2705; When configured with DES | &#x2705; When configured with DES | &#x2705; | &#x2705; For the OS disk only |
+| Does not use your VM's CPU | &#x2705; | &#x2705; | &#10060; | &#10060; |
+| Works for custom images | &#x2705; | &#x2705; | &#10060; Does not work for custom Linux images | &#x2705; |
 | Enhanced Key Protection | &#10060; | &#10060; | &#10060; | &#x2705; |
 | Microsoft Defender for Cloud disk encryption status* | Unhealthy | Healthy | Healthy | Not applicable |
 
