Enhance & Accelerate Sensitivity Analysis, History Matching, … · 2017. 1. 16. · calculate NPV...

Enhance & Accelerate Sensitivity Analysis, History Matching, Optimization & Uncertainty Analysis Using CMOST

™ Trademark of Computer Modelling Group Ltd. All other company, product, and service names may be trademarks or registered trademarks, and are the property of their respective owners.

Outline

• What is CMOST • CMOST Input Data Features • CMOST Technologies • CMOST Data Analytics • CMOST Workflows • Summary

What is CMOST? - Productivity Sensitivity Analysis • Better understanding of a simulation model • Identify important parameters

History Matching • Calibrate simulation model with field data • Obtain multiple history-matched models

Optimization • Improve NPV, Recovery, … • Reduce cost

Uncertainty Analysis • Quantify uncertainty • Understand and reduce risk

CMOST View of Simulation Models

Simulation Model y1=f1(x1, x2, …, xn) y2=f1(x1, x2, …, xn)

… ym=f1(x1, x2, …, xn)

Parameters x1, x2, …, xn

Objective Functions y1, y2, …, yn

Black Box System

CMOST User Interface

CMOST INPUT DATA FEATURES Quality Data

Quality Result

How Input Data is Organized

Define what data to be extracted from simulation

Define how the simulation model is parameterized

Define objective functions to be calculated

Original Time Series

User-defined Time Series

Property vs. Distance Data Series

Easy Parameterization of Simulation Model • Complementary to Builder • Create CMOST parameters • Better syntax highlighting

– Highlight CMOST parameters – Fold no-need-to-see sections

• Easy navigation – Different sections of the

dataset – Navigate CMOST parameters

• Handle include files – Create/extract include files – View include files – Parameterize include files

Dependent Parameters using Formula • Syntax highlighting • Shows what variables are available to be used

to create formulas • Test and check the formula anytime

Coupling with Geological Software through Pre-simulation Commands

Geological model Simulation model

Simulation model

Third-party package

Objective Functions

Characteristic Date Times

• Fixed date times • Dynamic date times

o From original time series o From user-defined time

series

Basic Simulation Result • From original time series • From user-defined time

series • Characteristic time durations

History Matching Error • For original time series • For user-defined time series • For property vs. distance

series

Net Present Value

• Continuous cash flow terms • Discrete cash flow terms

Advanced

• Calculated by user Jscript code

• Calculated by Excel • Calculated by user

Executable

Global Objective Functions

• Nominal o Entire field HM error o Entire field NPV o User-defined

• Robust (coming soon) o Standard statistical

measures o User-defined

Dynamic Date Times: Maximize Peak NPV

Peak NPV

Dynamic Date Times: Plateau Optimization

Plateau period Oil produced at plateau Average oil rate at plateau

User-defined Objective Functions

• Use Excel spreadsheet – Map CMOST parameter values to cells – Map simulation results to cells

• Use Jscript code • Use executable provided by user (e.g. MATLAB) • Preview calculation result using base case

CMOST TECHNOLOGIES • Design of Experiments • Optimization Algorithms • Monte Carlo Simulation • Data-Driven Prediction • Distributed Computing

Design of Experiments • A structured, organized

method to determine the relationship between:

– Different variables (Xs) affecting a process

– The outputs of that process (Ys)

• An efficient strategy to gather empirical knowledge – Knowledge based on the analysis of experimental

(simulation) data

Experimental Design Methods in CMOST • Two-level classical experimental designs

– Plackett-Burman design – Fractional factorial design

• Three-level classical experimental designs – Full factorial design – Box-Behnken design – Central composite design (CCD)

• Latin hypercube design – Any number of parameters – Mixture of continuous and discrete parameters – Continuous parameter sampling options

Continuous uniform sampling Continuous sampling honoring prior distribution Discrete uniform sampling

– Discrete parameter sampling options Treat discrete values equally probable Honor prior distribution of discrete values

Recommendations

• Sensitivity analysis • Two-level classical experimental designs • Three-level classical experimental designs • Latin hypercube design

• Uncertainty analysis • Three-level classical experimental designs • Latin hypercube design

Optimization Algorithms

• CMG DECE (Design Exploration Controlled Evolution)

• Particle Swarm Optimization (PSO) • Latin Hypercube plus Proxy Optimization • Random Brute Force Search • Differential Evolution (coming soon)

DECE: Designed Exploration Controlled Evolution

Run simulations using the design

Get initial set of training data

Run simulations

Satisfy stop criteria?

Add new solutions to training data

Generate initial Latin hypercube design

Exploration (get more information)

Exploitation (find optimum) Success?

DECE Characteristics • Handles continuous & discrete parameters • Handles hard constraints • Asynchronous – complete utilization of distributed

computing power • Fast and stable convergence

PSO Optimization Algorithm

• A population based stochastic optimization technique developed in 1995 by James Kennedy and Russell Eberhart

• Let particles move towards the best position in search space, remembering each local (particle’s) best known position and global (swarm’s) best known position.

Latin Hypercube plus Proxy Optimization Algorithm

Run simulations using the design

Get initial set of training data

Build a proxy model using training data

Find possible optimum solutions using proxy

Run simulations using these possible solutions

Satisfy stop criteria?

Add validated solutions to training data

Generate initial Latin hypercube design

• Polynomial • Ordinary kriging

Latin Hypercube Plus Proxy Optimization

Latin hypercube design

Optimization using proxy

Random Brute Force Search • Choose parameter value randomly • No trend to results (scatter) • Only use if search space is small

Monte Carlo simulation: method for analyzing uncertainty propagation

Define parameter probability distributions Pick random values and calculate NPV (using proxy or simulator) Repeat for thousands of iterations

8281 83

0.300.25 0.35

12 13 14 15 16 17 18 19 20 21 22 23 24 25 26Net present value (M$)

NPV=F(DWOC, SORG, SORW, …)

Probability Distributions in CMOST

Normal Lognormal Triangle

Uniform Custom Discrete

Parameter Correlations in Monte Carlo Samples

0.0 0.25

0.50 0.75

Data-driven Prediction

• Use proxy models to quickly predict reservoir response

• Choose different types of proxy models – Polynomial – Ordinary kriging – Polynomial + ordinary kriging – Kernel

• Excellent tool for what-if analyses & team discussions

Proxy Dashboard Movie

Run Simulation to Verify Proxy Prediction

New Experiment New Parameter & Objective Function

Values

Distributed Computing

• CMG Scheduler • Microsoft HPC • IBM Platform LSF • Oracle Grid Engine • Portable Batch System (PBS/TORGUE)

CMOST DATA ANALYTICS

Patterns

CMOST Data

Analytics

Trends Relationships

Decisions Ideas

How Data Flows in CMOST

CMOST Experiment Table

Data Filtering & Compression

Capable of storing results for thousands of simulations

Parameter Run Progress

Objective Function Run Progress

Time Series Observers

Property vs. Distance Series Observers

Parameter & Objective Function Histograms

Cross Plots

Proxy Model QC

Proxy Model Statistics

Proxy Model Effect Estimates

Monte Carlo Simulation Result

Tornado Plot

CMOST WORKFLOWS • Sensitivity Analysis • History Matching • Optimization • Uncertainty Analysis • User-defined Workflow

Sensitivity Analysis Workflows

Define Input Data

Configure and Run Engine

Response Surface Methodology

One Parameter At A Time

Result & Analysis

History Matching & Optimization Workflows

Define Input Data

PSO DECE

Result & Analysis

LHD+Proxy Brute Force

Uncertainty Analysis Workflows

Define Input Data

Monte Carlo using Simulator

Monte Carlo using Proxy Models

Result & Analysis

User-Defined Workflows

Define Input Data

External Engine (User’s optimization

algorithm)

Manual Engine (User-defined experiments)

Result & Analysis

Easy to Use

Adaptive & Dynamic Open & Extensible

Powerful Analytics

To be The Leading Developer & Supplier of Dynamic Reservoir Technologies in the WORLD

Our vision:

For more information or follow-up: info@cmgl.ca

Enhance & Accelerate Sensitivity Analysis, History Matching, … · 2017. 1. 16. · calculate NPV...

Documents

Transcript of Enhance & Accelerate Sensitivity Analysis, History Matching, … · 2017. 1. 16. · calculate NPV...

Cisco Nexus 9000 Series NX-OS FCoE NPV Configuration Guide ... · CHAPTER 2 Configuring FCoE NPV ThischapterdescribeshowtoconfigureFiberChanneloverEthernet(FCoE)N-portVirtulization(NPV)on

Treasury Npv

NPV in Project Management - 3FOLD Education Centre3foldtraining.com/.../uploads/2016/11/NPV-in-Project-Management.pdf · NPV in Project Management ... to the firm. In financial theory

NPV+ Analysis: Vehicles

NPV $ Pay Back

Py4inf 05 Iterations

Screen Grab Iterations

NPV and IRR

NPV Analysis

Performance tuning through iterations

NPV and Value Creation_Ch6

Model SHV and NPV - Amazon S3 · npv shv model shv and npv installation, operation and maintenance instructions instruction manual im101

5. NPV IRR

Capital Budgeting & Risk Invest in highest NPV project Need Discount rate to get NPV.

Ross, Chapter 8: NPV

Users. Iterations. Disruptive Thinking.

Cisco Fcoe Npv

IRR and NPV

CSCI213 Spring2013 Lectures Iterations

NPV & Other Criteria