Compact mode
MODE vs AVERAGEIFS vs DVARP
Table of content
Basic Classification Comparison
Function Category 📊
Primary classification of the Excel function based on its main purpose and usage domain, helps users quickly identify function typesFor all*- StatisticalExcel functions for statistical analysis and calculations
Operation Type 🔧
Fundamental type of operation or action that the Excel function performs on its inputsFor all*- CalculationExcel functions for performing various calculations
Usage Context Comparison
For whom 👥
Target user groups who would benefit most from using this Excel functionFor all*MODEAVERAGEIFSDVARP
Basic Information Comparison
Known For ⭐
Distinctive characteristic or primary strength of the Excel functionMODE- Finding Most Frequent ValueMODE is known for Finding Most Frequent Value.
AVERAGEIFS- Multiple Criteria Based AverageAVERAGEIFS is known for Multiple Criteria Based Average.
DVARP- Population VarianceDVARP is known for Population Variance.
History Comparison
Facts Comparison
Interesting Fact 💡
Unique or lesser-known information about the Excel functionMODE- One of the original statistical functions
AVERAGEIFS- Can Handle Up To 127 Criteria Pairs
DVARP- Popular in academic research
Sarcastic Fact 🤣
Humorous or ironic observation about the Excel functionMODE- Finds the popularity contest winner in your data
AVERAGEIFS- Makes Simple Averages Feel Inadequate
DVARP- The statistician's secret weapon
Usage Information Comparison
Formula Complexity Level 📖
Indicates the difficulty level and complexity of using the Excel function effectivelyMODEAVERAGEIFSDVARP
Technical Details Comparison
Input Data Type 📝
Types of data that the Excel function accepts as input parametersFor all*- NumberExcel functions specifically designed for numerical calculations
- ArrayExcel functions designed to work with arrays and ranges of data
AVERAGEIFS- RangeAVERAGEIFS accepts Range as input data. Excel functions that operate on cell ranges and data sets
DVARP- RangeDVARP accepts Range as input data. Excel functions that operate on cell ranges and data sets
Version Compatibility 💻
Indicates which Excel versions and platforms the function is compatible with < including Office 365< Excel 2019< 2016< etc.MODE- Excel 2019MODE is compatible with Excel 2019 Excel functions that work specifically in Excel 2019 version
- Excel 2016MODE is compatible with Excel 2016 Excel functions that work specifically in Excel 2016 version
- Excel 2013MODE is compatible with Excel 2013 Excel functions that work specifically in Excel 2013 version
AVERAGEIFS- Excel 2007AVERAGEIFS is compatible with Excel 2007 Excel functions that work specifically in Excel 2007 version
DVARP- Excel 2019DVARP is compatible with Excel 2019 Excel functions that work specifically in Excel 2019 version
- Excel 97DVARP is compatible with Excel 97 Excel functions that work in the classic Excel 97 version
Operating System 💾
Specifies the operating systems where the function can be used < including Windows< macOS< and web platformsFor all*- WindowsExcel functions optimized for Windows operating system
- MacOSExcel functions optimized for MacOS users
MODE- Web ExcelMODE runs on Web Excel Excel functions available in web-based versions
AVERAGEIFS- Web ExcelAVERAGEIFS runs on Web Excel Excel functions available in web-based versions
- Excel OnlineAVERAGEIFS runs on Excel Online Excel functions available in the online version of Excel Click to see all.
Required Arguments Count 🔢
Number of mandatory arguments needed for the function to work properlyMODEAVERAGEIFSDVARPRequired Arguments Type 📊
The data types accepted as valid input arguments for the functionMODE- NumberMODE accepts Number as input types Excel functions that perform calculations specifically with numerical inputs
- ArrayMODE accepts Array as input types Excel functions that specifically work with array inputs for calculations
AVERAGEIFS- NumberAVERAGEIFS accepts Number as input types Excel functions that perform calculations specifically with numerical inputs
- ArrayAVERAGEIFS accepts Array as input types Excel functions that specifically work with array inputs for calculations
- RangeAVERAGEIFS accepts Range as input types Excel functions that operate on cell ranges for calculations
DVARP- RangeDVARP accepts Range as input types Excel functions that operate on cell ranges for calculations
- TextDVARP accepts Text as input types Excel functions specialized in text string manipulation and processing
- CriteriaDVARP accepts Criteria as input types Excel functions that use specific criteria for filtering and conditional operations
Evaluation Comparison
Pros ✅
Key advantages and strengths of the Excel functionMODE- Easy Statistical Analysis
- Quick Results
- Reliable
AVERAGEIFS- Flexible Criteria Selection
- Multiple Condition Support
- Easy To UnderstandFunctions with clear and intuitive syntax that are simple to learn
- Multiple Conditions SupportExcel functions handling multiple conditions enable complex logical operations and flexible data filtering
- Flexible Range SelectionFunctions that enable selecting dynamic ranges and cell references flexibly
- Easy To Use With Multiple CriteriaFunctions that handle multiple conditions efficiently
- Versatile For Complex Analysis
DVARP- Population Calculations
- Database Integration
- Population Variance CalculationExcel functions calculating population variance provide accurate statistical analysis of entire data sets
- Database Compatible
Cons ❌
Limitations and potential drawbacks of the Excel functionMODE- Only Works With Numbers
- Limited To Single Mode
AVERAGEIFS- Complex Syntax
- Limited Data Type SupportFunctions that work with only specific data types, restricting versatility Click to see all.
- Can Be Slow With Large DatasetsFunctions that process large amounts of data may significantly impact spreadsheet performance Click to see all.
- Limited To Numeric Values Only
- Limited To Numerical Data Only
- Requires Careful Range Selection
DVARP- Highly Specialized
- Complex Setup
- Specific Use Case
- Complex Syntax
Ratings Comparison
Alternatives to MODE
KURT
Known for Measuring Data Peakedness
🛠
is more reliable than MODE
LARGE
Known for Finding Nth Largest Value
🔢
needs fewer arguments than MODE
📈
is more versatile than MODE
PRODUCT
Known for Multiplying Numbers Together
📊
is easier to use than MODE
📈
is more versatile than MODE
🛠
is more reliable than MODE
⭐
is rated higher than MODE
AVERAGE
Known for Basic Statistical Calculation
📊
is easier to use than MODE
📈
is more versatile than MODE
⚙
performs better than MODE
🛠
is more reliable than MODE
⭐
is rated higher than MODE
COUNT
Known for Counting Numeric Cells
📊
is easier to use than MODE
📈
is more versatile than MODE
🛠
is more reliable than MODE
⭐
is rated higher than MODE
SMALL
Known for Finding Nth Smallest Value
🔢
needs fewer arguments than MODE
📈
is more versatile than MODE
MIN
Known for Finding Lowest Value
📊
is easier to use than MODE
📈
is more versatile than MODE
⚙
performs better than MODE
🛠
is more reliable than MODE
⭐
is rated higher than MODE
SUM
Known for Basic Arithmetic Calculations
📊
is easier to use than MODE
📈
is more versatile than MODE
🛠
is more reliable than MODE
⭐
is rated higher than MODE
AVERAGEIF
Known for Conditional Average Calculations
🔢
needs fewer arguments than MODE
📈
is more versatile than MODE
🛠
is more reliable than MODE
⭐
is rated higher than MODE
COUNTIFS
Known for Multiple Criteria Counting
🔢
needs fewer arguments than MODE
📈
is more versatile than MODE
⭐
is rated higher than MODE