Software Alliance - Mo.net Execution Service
Type of System
- Asset/liability management
- Capital modelling
- End-to-end ERM
- Front / back office illustrations & calculations
- Governance, risk, compliance (GRC)
- IFRS 17 solution
- Internal/external reporting
- LDTI solution
- Portfolio analysis/hedging
- Reserving solution
- Solvency II solution
- Stress testing
Type of platform
Other features - does your offering facilitate
- Least-squares Monte Carlo
- NAIC Principle-based reserving
- NAIC RMORSA
- Replicating portfolios
- Solvency II internal model
- Solvency II standard formula
What are the typical implementation costs?
The Mo.net Execution Service enables any model that has been published to be consumed by any batch-oriented client application. The vast majority of our clients install the software without any support from Software Alliance, other than by using our comprehensive installation, configuration and end-user documentation. The license fees for the Mo.net Execution Service vary depending on the number of cores of the host environment.
How long does your software take to implement on site?
New implementations take no more than a few minutes to download, install and activate via our website.
Please name companies that use the system/solution
We have more than 60 successful client implementations around the world, highlighting the fact that Mo.net is entirely agnostic to regional / regulatory reporting environment.
Most recent significant update:
The latest version of the Mo.net Execution Service includes a significant number of enhancements and refinements to support the release of OMC R2, which is essentially the primary client of the Execution Service. These enhancements include distribution to on or off premise worker services and additional enterprise integration points.
Planned future enhancements:
We are planning to enhance the Mo.net Execution Service with additional integration points and improved load-balancing functionality.
How does your solution integrate with third-party systems or in-house systems?
The Mo.net Execution Service is provided as a web service accessible via RESTful and WCF / SOAP endpoints, either with or without a load balancer in place. This provides any third-party or in-house system with the functionality to run any Mo.net model or calculation that has been published to the service.This further demonstrates the best-in-class integration capability of the Mo.net platform.
What is the key attribute of your product(s) that differentiates it from your competitors?
Enterprise Integration, Flexibility and Performance
What trends are you seeing in terms of customer demand?
Operational Modelling – clients want an operational modelling solution which has the flexibility to allow data and assumption changes. Also key is the ability to produce results on updated model versions without making custom changes to the system, but maintain control and governance over model code and inputs. We can meet this demand with our Operational Modelling Centre.
Conversion and rationalisation of spreadsheet (and legacy) modelling – customers often have long-standing spreadsheet models that have far outlived their original purpose and would be much better suited as models within a well-controlled and governed modelling platform. Our Excel Model Adapter is designed to convert these spreadsheets quickly and easily into such models, therefore speeding up and simplifying the process.
IFRS17 – there is demand for a modelling platform that can be flexible enough either to be used to produce end-to-end IFRS17 reporting metric calculations, starting with the valuation at policy level or to enable companies to load in cashflow data and carry out calculations at cohort level. The open, loosely-coupled, service-oriented architecture of the Mo.net platform, together with its industry-leading performance and integration features, makes Mo.net a genuine alternative to legacy financial modelling platforms when responding to the challenges of IFRS 17.
Mo.net - The Service Oriented Financial Modelling Platform Powering the Next Generation of End-to-End Insurance Modelling