Google Workspace Weekly Recap – June 19, 2026

New discoverable space setting in Google Chat

Previously, spaces were either private (invite-only) or open (anyone in the organization can find and join). Discoverable spaces provide a new option between the two: they appear when users browse for spaces within their organization, but the conversation history and messages remain private until an owner or manager approves a user's request to join. | Learn more.

Carrier Link for Google Voice

Carrier Link allows Workspace customers to easily add phone numbers and calling plans from a certified local carrier, leveraging a pre-configured multi-tenant implementation of SIP Link. | Learn more.

AI note-taking is now available in Google Voice

This powerful new feature records and transcribes calls, summarizes key points, and organizes action items, which are sent via Gmail and stored in the Voice app. | Learn more.

Gemini in Chrome expands to more languages and regions, including Latin America, Africa, and the Middle East

Many of Chrome's latest AI features are rolling out to users in Latin America, Africa, the Middle East, and more. | Learn more.

Control whether your users can have temporary chats and delete conversations in the Gemini app

We’re introducing two new administrator controls for the Gemini app (gemini.google.com) that allow end users to manage their own chat activity. Admins can now configure whether users can use temporary chats and delete their conversation history. | Learn more.

Create longer Veo videos and generate multiple at once in Google Vids

These updates provide all Vids users with the ability to create longer videos with consistent characters and generate multiple videos in parallel, enabling you to bring your vision to life faster than ever before. | Learn more.

Enhanced AI avatar features and capabilities in Google Vids

We’re excited to announce expanded language support, a new collection of avatar defaults, and the ability to direct your custom avatars to take action in any generated video. | Learn more.

Custom event colors in Google Calendar

Going forward, users are offered an expanded color palette so they can personalize events and visually organize their calendar with ease, giving each user access to up to 200 custom colors for individual events via both the native web and mobile apps as well as the Calendar API. | Learn more.

Make Gemini more helpful and relevant to your teaching goals with the Google Classroom app in Gemini

Educators have shared that AI is especially helpful when it understands the context of their teaching environment, from tailoring resources toward student needs or building on their existing materials. To support this, Gemini will be able to collaborate with your Google Classroom, using context from your classes to inform its outputs or help complete tasks. | Learn more.

Improved management of secondary calendars via the Calendar API

We’re introducing two enhancements to the Calendar API that make it easier for admins to programmatically manage secondary calendars within their organization: a transfer API and a filter for secondary calendars owned by your organization. | Learn more.

Google Meet now available on Android Auto

We’re bringing the power of Google Meet to your vehicle's display with our new integration for Android Auto. This update makes it easy to safely stay connected and handle important meetings hands-free from behind the wheel. | Learn more.

Expanded language support for building and editing spreadsheets with Gemini

We’re now expanding support for these features to 28 additional languages, enabling users who speak Spanish, Portuguese, Japanese, Korean, Italian, French, German, Chinese Simplified, Dutch, Hebrew, Polish, Turkish, Czech, Indonesian, Malay, Swedish, Danish, Norwegian, Arabic, Finnish, Vietnamese, Ukrainian, Greek, Thai, Romanian, Russian, Catalan, and Hungarian to collaborate natively with Gemini in their preferred language. | Learn more.

The announcements above were published on the Workspace Updates blog over the last week. Please refer to the original blog posts for complete details.

How A2A is Building a World of Collaborative Agents

Celebrating the first anniversary of the Agent-to-Agent (A2A) protocol, this blog post highlights how the framework enables autonomous AI agents to securely collaborate and hand off tasks without the rigidity of traditional APIs. By delegating complex workflows to specialized peer agents, A2A prevents context pollution, ensures data privacy, and simplifies application design through modularity. To demonstrate this ecosystem in action, the post spotlights FoldRun—an agentic interface for life sciences that orchestrates complex protein structure predictions—alongside diverse A2A use cases spanning commerce, data streaming, DevOps, and telecommunications.

In-place pod restarts: Boosting efficiency and workload reliability in Kubernetes v1.35

by Duncan Campbell & Giuseppe Tinti Tomio, Kubernetes

Operational efficiency and system resilience are critical when running scaled platforms. Yet, in Kubernetes, recovering from software crashes remains a headache because you couldn't trigger a clean restart of a Pod's containers without recreating the entire Pod object, leading to some amount of resource waste.
To address this, Restart All Containers on Container Exits graduated to beta and is enabled by default in Kubernetes v1.36. Developed in close collaboration with the CNCF community, this capability represents Google's commitment to investing in the success of foundation-led open source projects. By sharing best practices from running large distributed systems internally, we are helping build a more resilient and efficient ecosystem. Letting containers restart while keeping the Pod's runtime identity provides a built-in way to perform in-place Pod recovery, boosting application reliability and saving resource costs.

The Problem: The High Cost of Pod Re-creation

Historically, Kubernetes managed failures using pod level restart policies. While sufficient for simple services, modern multi-container Pods often have complex dependencies. When a failure requires a full environment reset, your only option was deleting and recreating the entire Pod.
This introduces massive control plane churn, causing latency and pressure on the etcd backend during large failures:

  • Initialization Dependencies: If a main container corrupts a local environment, for example, single-use secrets that must be re-requested, restarting just that container is insufficient; the setup must run again.
  • Watcher Interoperability: If a watcher sidecar detects a fatal error, it must trigger a full recreate of the entire pod and its infrastructure, including the sandbox.
  • Stale States: If a database sidecar proxy restarts, the main application can get stuck attempting to use stale, broken connections.
  • Resource Race Conditions: When a large job finds a proper set of nodes, recreating Pods can lead to other pending Pods taking over those resources. In-place restarts eliminate this race condition risk.

Previously, resolving these failures required destroying the entire Pod. For large batch or AI/ML workloads, where thousands of Pods might fail simultaneously, this can lead to "Thundering Herd" scheduling requests, delaying recovery and wasting expensive GPU/TPU compute time.

Introducing In-Place Restarts: The RestartAllContainers Action

Kubernetes v1.35 introduces the RestartAllContainers action, enabled by the RestartAllContainersOnContainerExits feature gate, which graduated to beta in 1.36 alongside its dependencies ContainerRestartRules and NodeDeclaredFeatures. This lets a container's exit behavior trigger a fast, in-place restart of the entire Pod on its existing node.
The Kubelet halts all containers while keeping the Pod sandbox intact, preserving critical infrastructure:

  • Network Identity: Keeps the same IP, network namespace, and UID, completely bypassing IP reassignment.
  • Hardware and Devices: Keeps GPUs/TPUs bound, eliminating scheduling and re-allocation delays.
  • Storage Mounts: Volumes, including emptyDir and PVCs, remain fully mounted; their content is not cleared during restarts.

Once terminated, the Kubelet re-runs init containers (including sidecars, which are part of the init sequence) in order, guaranteeing a clean setup in a known-good environment.

A Native Pod Specification Example

You can implement this under the container's restartPolicyRules field. Here is a quick example of how a watcher sidecar can trigger an in-place restart of the entire Pod by exiting with code 88:
YAML
Note: Image names and paths in the YAML below are for illustrative purposes.

apiVersion: v1
kind: Pod
metadata:
  name: ml-worker-pod
spec:
  restartPolicy: Never
  initContainers:
    - name: setup-environment
      image: registry.k8s.io/ml-tools/setup-worker:v1.0
    - name: watcher-sidecar
      image: registry.k8s.io/ml-tools/watcher:v1.0
      restartPolicy: Always
      restartPolicyRules:
        - action: RestartAllContainers
          exitCodes:
            operator: In
            values: [88]
  containers:
    - name: main-application
      image: registry.k8s.io/ml-tools/training-app:v1.0

The Operational Impact of In-Place Restarts

For organizations running distributed workloads, RestartAllContainers provides serious operational advantages:

  • No Control Plane Overhead: By preserving identity, clusters avoid scheduling latency and DNS propagation. This was a key factor for JobSet using this feature to reduce recovery from minutes to seconds.
  • Node Locality Preservation: Since the Pod stays anchored to the same node, restarted containers can instantly access local, warm storage caches.
  • Maximized Hardware Efficiency: In distributed AI training, losing a single node halts the entire job. Keeping accelerators like GPUs/TPUs bound lets workloads resume training significantly faster, directly reducing compute costs.

Observability and SRE Best Practices

To support monitoring, Kubernetes v1.35 introduces the AllContainersRestarting Pod condition. Set to True during restarts, it alerts SREs and autoscalers, preventing false-positive alerts, while container restart counts increment to let Prometheus easily track recovery events.
To use in-place restarts successfully, shift your mental model to "persistent sandboxes" and follow three best practices:

  1. Ensure Reentrancy: Kubelet only guarantees "at least once" execution for init containers. Reentrancy is now a standard requirement, so your code must be fully idempotent.
  2. Plan for Termination Handling: Graceful termination (preStop hooks) is not supported for in-place restarts. SIGKILL is almost immediate, so applications must handle sudden exits gracefully.
  3. Prepare External Tooling: CD and observability tools should expect re-running init containers without interpreting them as new deployments.

What's Next?

This beta capability is a major step toward fluid workload management and serves as a building block for advanced community features like JobSet in-place restarts (KEP-467).
Our work on KEP-5532 reflects our commitment to transparent open source governance. Developed collaboratively within SIG Node, this feature shows how we hold ourselves to high citizenship standards; making our design, goals, and intentions transparent while building shared best practices that benefit everyone. We encourage you to experiment with Kubernetes v1.35 and share your feedback with the community!

Learn More

Beta Channel Update for ChromeOS / ChromeOS Flex

The Beta channel is being updated to OS version 16700.20.0 (Browser version 150.0.7871.32) for most ChromeOS devices.

If you find new issues, please let us know one of the following ways:


  1. File a bug

  2. Visit our ChromeOS communities

    1. General: Chromebook Help Community

    2. Beta Specific: ChromeOS Beta Help Community

  3. Report an issue or send feedback on Chrome

  4. Interested in switching channels? Find out how.


Alon Bajayo

Google ChromeOS

Expanded language support for building and editing spreadsheets with Gemini

Earlier this year, we introduced new Gemini in Sheets capabilities that allow you to build and edit entire spreadsheets using simple natural language. We’re now expanding support for these features to 28 additional languages, enabling users who speak Spanish, Portuguese, Japanese, Korean, Italian, French, German, Chinese Simplified, Dutch, Hebrew, Polish, Turkish, Czech, Indonesian, Malay, Swedish, Danish, Norwegian, Arabic, Finnish, Vietnamese, Ukrainian, Greek, Thai, Romanian, Russian, Catalan, and Hungarian to collaborate natively with Gemini in their preferred language.

With this update, users can leverage the full functionality of Gemini to build and edit spreadsheets by issuing prompts in their native language. Whether users are updating budgets, building complex financial models, or conducting data analysis, Gemini leverages Sheets tools—such as tables, pivot tables, charts, and formulas—to execute tasks. This enables global teams to manage data more efficiently, automate workflow execution, and extract valuable cross-document insights without confronting language barriers.


Gemini in Sheets UX in Spanish language

Getting started

Rollout pace

Availability

  • Business: Business Standard and Plus
  • Enterprise: Enterprise Standard and Plus
  • Consumer: Google AI Pro and Ultra
  • Education Add-ons: Google AI Pro for Education
  • Other Add-ons: AI Expanded Access
Note: Through July 15, 2026, Workspace customers get promotional access to higher limits for the improved Gemini in Sheets experience. Per-user usage limits will apply after July 15; we’ll provide more information in the Help Center in advance of updated usage limits going into effect.

Resources

Google Meet now available on Android Auto

We’re bringing the power of Google Meet to your vehicle's display with our new integration for Android Auto. This update makes it easy to safely stay connected and handle important meetings hands-free from behind the wheel.

Users can now access Google Meet directly from their car's dashboard. This integration ensures your productivity doesn't pause when you start your engine. From your vehicle's display, you can check your upcoming meeting schedule and join discussions with a single tap.

User interface showing upcoming meetings

You also have the flexibility to make and receive direct audio calls, with a convenient History tab that lets you quickly dial colleagues or clients without taking your eyes off the road.

User interface showing recent calls

Please note that when you join a meeting or call, your camera is turned off and you won’t see the incoming video content. You’ll hear the audio from the meeting and have audio input access from your microphone.

Getting started

  • Admins: There is no admin control for this feature.
  • End users: This feature is ON by default for users with the Google Meet app installed on their Android phone. To use it, simply connect your phone to an Android Auto-compatible vehicle. Visit the Help Center to learn more about using Meet on Android Auto.

Rollout pace

Availability

  • Available to all Google Workspace customers, Workspace Individual subscribers, and users with personal Google accounts

Resources

Improved management of secondary calendars via the Calendar API

We’re introducing two enhancements to the Calendar API that make it easier for admins to programmatically manage secondary calendars within their organization: a transfer API and a filter for secondary calendars owned by your organization.

Transfer API

As previously announced, the new endpoint in the Google Calendar API that allows administrators to programmatically transfer the ownership of secondary calendars is now being rolled out. Its functionality mirrors the data transfer feature currently available in the Admin console by permitting transfers between users in the same organization without sending emails or requiring confirmation from the recipient. Beyond replicating the Admin console functionality, the API provides greater flexibility by allowing administrators to transfer specific, individual secondary calendars.

Organization filter

To help organizations prepare for the upcoming secondary calendar data lifecycle changes, where secondary calendars will follow the lifecycle of their owner, administrators can now programmatically monitor the ownership status of their users' secondary calendars.

A new filtering option will be available in the CalendarList:list API method that restricts results to return only secondary calendars owned by the organization. When combined with the users.list method of the Admin SDK API, administrators can retrieve a comprehensive list of organization-owned secondary calendars across their users' calendar lists. The dataOwner field can then be used to verify current ownership status and make any necessary adjustments.

Getting started

Rollout pace

Transfer API
Organization filter

Availability

  • Available to all Google Workspace customers

Resources

Chrome Dev for Desktop Update

The Dev channel has been updated to 151.0.7896.2 for Windows, Mac and Linux.

A partial list of changes is available in the Git log. Interested in switching release channels? Find out how. If you find a new issue, please let us know by filing a bug. The community help forum is also a great place to reach out for help or learn about common issues.

Chrome Release Team
Google Chrome