Planned deadlines
Milestone | Planned deadline | Actual deadline | Description of the Milestone | Comments |
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M0 |
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M1 |
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M2 |
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M3 |
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| Critical - must be aligned with Juniper timeline | |
M4 |
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| From now on, discussion about release candidates may be conducted |
RC0 |
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delay with testing - so date is moved till mid of December | ||
Deployment |
| official deployment executed |
The initial list of blueprints/features (from Juniper - as a reference)
Feature name | Feature Lead | Modules (Components) | Approvers | BluePrint Specification links | |
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1. | Provision for a knob (per service chain) to prevent reset of AS_PATH and maintain it through a service chain |
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2. | Collapsed Spine L2/3 fabric A collapsed spine architecture has no leaf layer. Instead, the Layer 3 IP-based underlay and the EVPN-VXLAN overlay functionality that normally runs on leaf switches is collapsed onto the spine switches. | Ankur Tandon |
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3. | Ubuntu 20.04 Support |
| Blueprint=N/A | ||
4. | Charmed OpenStack Ussuri Support | Anastasia Kravets |
| Blueprint=N/A | |
5. | Data Plane Mac/IP Learning Mode for vRouter |
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6. | Combined FFU+ZIU upgrade from RHOSP13/CN19xx to RHOSP16.1/CN R2011 LTS |
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7. | Optimize the workflow for LR in ERB Mode when creating IRB in the Fabric In ERB fabric, creating IRB unit for each VN on a device only if there is a local port (VPG) for the associated VN. This is done to reduce the device scale wrt. configuration and the traffic convergence time in some of the scenarios | Ankur Tandon |
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8. | Contrail-2003/TCS P0: EVPN Type5 LR : Specific remote VN routes into added to the tenant VN and not the default route |
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9. | BFD/BGP sessions flapping on two computes | Narendranath Karjala |
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10. | Qualify 5220 (EVO-based) as a lean spine in ERB fabric |
| Data-center fabric automation for underlay IP clos and overlay EVPN-VXLAN features using QFX-5220-132C and QFX-5220-32CD EVO based platforms. These platforms will be used as a lean spine/super-spine in ERB architecture. | ||
11. | DCI -EVPN using L2/3 DCI OTT - Phase 0 To stretch L2 virtual networks across fabrics in a multi-tenant environment by leaking the tenant virtual network route targets across the fabric |
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12. | CaVA - Join to cluster | Tomasz Nowak |
| https://docs.google.com/document/d/1amNES5_scjPHe6gpSt8mBUCfBh1O25LCK7yXsNxIwls/edit?usp=sharing seems to be cancelled, integrated with TFF-15 - TF Operator | |
13. | Fabric scale and performance as per PLM requests for R2011 |
| Fabric scale with 256 physical devices along with overlay object scale
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14. | 3-tier/5-stage fabric - support for single-plane superspine design (based on 'lean leaf' workaround today) Connecting multiple pods via super-spine layer which will behave either as lean device (IP transit) or Route-Reflector. |
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15 | TF Operator Framework |
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16 | RBAC support for fabric | Config , UI |
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17 | New website for TF | UI |
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18 | LogicalRouter: Selecting router type on creation | Control Plane | seems like small fix to web UI which is already done | ||
19 | Support for Intel DDP | haji mohamed | Contrail Dataplane (DPDK vRouter) | ||