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README.md
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README.md
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```
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__________ ____
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__________ ____
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________ __ _____/ ____/ | / __ \
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/ ___/ __` / __ / / / /| | / / / /
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/ /__/ /_/ / /_/ / /___/ ___ |/ /_/ /
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\___/\__,_/\__,_/\____/_/ |_/_____/
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/ /__/ /_/ / /_/ / /___/ ___ |/ /_/ /
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\___/\__,_/\__,_/\____/_/ |_/_____/
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by BlockScience
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======================================
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Complex Adaptive Dynamics
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o i e
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m d s
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p e i
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u d g
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t n
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e
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r
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```
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***cadCAD*** is a Python package that assists in the processes of designing, testing and validating complex systems through simulation, with support for Monte Carlo methods, A/B testing and parameter sweeping.
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# Getting Started
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## 1. Installation:
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Requires [Python 3](https://www.python.org/downloads/)
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**Introduction:**
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**Option A: Install Using [pip](https://pypi.org/project/cadCAD/)**
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***cadCAD*** is a Python library that assists in the processes of designing, testing and validating complex systems through
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simulation. At its core, cadCAD is a differential games engine that supports parameter sweeping and Monte Carlo analyses
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and can be easily integrated with other scientific computing Python modules and data science workflows.
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**Description:**
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cadCAD (complex adaptive systems computer-aided design) is a python based, unified modeling framework for stochastic
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dynamical systems and differential games for research, validation, and Computer Aided Design of economic systems created
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by BlockScience. It is capable of modeling systems at all levels of abstraction from Agent Based Modeling (ABM) to
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System Dynamics (SD), and enabling smooth integration of computational social science simulations with empirical data
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science workflows.
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An economic system is treated as a state-based model and defined through a set of endogenous and exogenous state
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variables which are updated through mechanisms and environmental processes, respectively. Behavioral models, which may
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be deterministic or stochastic, provide the evolution of the system within the action space of the mechanisms.
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Mathematical formulations of these economic games treat agent utility as derived from the state rather than direct from
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an action, creating a rich, dynamic modeling framework. Simulations may be run with a range of initial conditions and
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parameters for states, behaviors, mechanisms, and environmental processes to understand and visualize network behavior
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under various conditions. Support for A/B testing policies, Monte Carlo analysis, and other common numerical methods is
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provided.
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For example, cadCAD tool allows us to represent a company’s or community’s current business model along with a desired
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future state and helps make informed, rigorously tested decisions on how to get from today’s stage to the future state.
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It allows us to use code to solidify our conceptualized ideas and see if the outcome meets our expectations. We can
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iteratively refine our work until we have constructed a model that closely reflects reality at the start of the model,
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and see how it evolves. We can then use these results to inform business decisions.
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#### Documentation:
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* ##### [Tutorials](tutorials)
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* ##### [System Model Configuration](documentation/Simulation_Configuration.md)
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* ##### [System Simulation Execution](documentation/Simulation_Execution.md)
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* ##### [Policy Aggregation](documentation/Policy_Aggregation.md)
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* ##### [System Model Parameter Sweep](documentation/System_Model_Parameter_Sweep.md)
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#### 0. Installation:
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**Python 3.6.5** :: Anaconda, Inc.
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**Option A:** [PyPi](https://pypi.org/project/cadCAD/): pip install
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```bash
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pip3 install cadCAD
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pip install cadCAD
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```
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**Option B:** Build From Source
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```
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```bash
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pip3 install -r requirements.txt
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python3 setup.py sdist bdist_wheel
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pip3 install dist/*.whl
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```
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## 2. Learn the basics
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**Tutorials:** available both as [Jupyter Notebooks](tutorials)
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and [videos](https://www.youtube.com/watch?v=uJEiYHRWA9g&list=PLmWm8ksQq4YKtdRV-SoinhV6LbQMgX1we)
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**Option C:** Proprietary Build Access
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Familiarize yourself with some system modelling concepts and cadCAD terminology.
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***IMPORTANT NOTE:*** Tokens are issued to those with access to proprietary builds of cadCAD and BlockScience employees **ONLY**.
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Replace \<TOKEN\> with an issued token in the script below.
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```bash
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pip3 install pandas pathos fn funcy tabulate
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pip3 install cadCAD --extra-index-url https://<TOKEN>@repo.fury.io/blockscience/
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```
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## 3. Documentation:
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* [System Model Configuration](documentation)
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* [System Simulation Execution](documentation/Simulation_Execution.md)
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* [Policy Aggregation](documentation/Policy_Aggregation.md)
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* [System Model Parameter Sweep](documentation/System_Model_Parameter_Sweep.md)
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## 4. Connect
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Find other cadCAD users at our [Discourse](https://community.cadcad.org/). We are a small but rapidly growing community.
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#### 1. [Configure System Model](documentation/Simulation_Configuration.md)
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#### 2. [Execute Simulations:](documentation/Simulation_Execution.md)
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##### Single Process Execution:
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Example System Model Configurations:
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* [System Model A](documentation/examples/sys_model_A.py):
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`/documentation/examples/sys_model_A.py`
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* [System Model B](documentation/examples/sys_model_B.py):
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`/documentation/examples/sys_model_B.py`
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Example Simulation Executions:
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* [System Model A](documentation/examples/sys_model_A_exec.py):
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`/documentation/examples/sys_model_A_exec.py`
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* [System Model B](documentation/examples/sys_model_B_exec.py):
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`/documentation/examples/sys_model_B_exec.py`
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```python
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import pandas as pd
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from tabulate import tabulate
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from cadCAD.engine import ExecutionMode, ExecutionContext, Executor
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from documentation.examples import sys_model_A
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from cadCAD import configs
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exec_mode = ExecutionMode()
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# Single Process Execution using a Single System Model Configuration:
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# sys_model_A
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sys_model_A = [configs[0]] # sys_model_A
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single_proc_ctx = ExecutionContext(context=exec_mode.single_proc)
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sys_model_A_simulation = Executor(exec_context=single_proc_ctx, configs=sys_model_A)
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sys_model_A_raw_result, sys_model_A_tensor_field = sys_model_A_simulation.execute()
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sys_model_A_result = pd.DataFrame(sys_model_A_raw_result)
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print()
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print("Tensor Field: sys_model_A")
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print(tabulate(sys_model_A_tensor_field, headers='keys', tablefmt='psql'))
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print("Result: System Events DataFrame")
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print(tabulate(sys_model_A_result, headers='keys', tablefmt='psql'))
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print()
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```
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##### Multiple Simulations (Concurrent):
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###### Multiple Simulation Execution (Multi Process Execution)
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System Model Configurations:
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* [System Model A](documentation/examples/sys_model_A.py):
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`/documentation/examples/sys_model_A.py`
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* [System Model B](documentation/examples/sys_model_B.py):
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`/documentation/examples/sys_model_B.py`
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[Example Simulation Executions:](documentation/examples/sys_model_AB_exec.py)
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`/documentation/examples/sys_model_AB_exec.py`
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```python
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import pandas as pd
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from tabulate import tabulate
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from cadCAD.engine import ExecutionMode, ExecutionContext, Executor
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from documentation.examples import sys_model_A, sys_model_B
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from cadCAD import configs
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exec_mode = ExecutionMode()
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# # Multiple Processes Execution using Multiple System Model Configurations:
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# # sys_model_A & sys_model_B
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multi_proc_ctx = ExecutionContext(context=exec_mode.multi_proc)
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sys_model_AB_simulation = Executor(exec_context=multi_proc_ctx, configs=configs)
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i = 0
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config_names = ['sys_model_A', 'sys_model_B']
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for sys_model_AB_raw_result, sys_model_AB_tensor_field in sys_model_AB_simulation.execute():
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sys_model_AB_result = pd.DataFrame(sys_model_AB_raw_result)
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print()
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print(f"Tensor Field: {config_names[i]}")
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print(tabulate(sys_model_AB_tensor_field, headers='keys', tablefmt='psql'))
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print("Result: System Events DataFrame:")
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print(tabulate(sys_model_AB_result, headers='keys', tablefmt='psql'))
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print()
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i += 1
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```
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##### Parameter Sweep Simulation (Concurrent):
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[Example:](documentation/examples/param_sweep.py)
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`/documentation/examples/param_sweep.py`
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```python
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import pandas as pd
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from tabulate import tabulate
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# The following imports NEED to be in the exact order
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from cadCAD.engine import ExecutionMode, ExecutionContext, Executor
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from documentation.examples import param_sweep
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from cadCAD import configs
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exec_mode = ExecutionMode()
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multi_proc_ctx = ExecutionContext(context=exec_mode.multi_proc)
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run = Executor(exec_context=multi_proc_ctx, configs=configs)
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for raw_result, tensor_field in run.execute():
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result = pd.DataFrame(raw_result)
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print()
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print("Tensor Field:")
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print(tabulate(tensor_field, headers='keys', tablefmt='psql'))
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print("Output:")
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print(tabulate(result, headers='keys', tablefmt='psql'))
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print()
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```
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