programming. Julia provides ease and expressiveness for high-level numerical computing, in the same way as languages such as R, MATLAB, and Python, but also supports general programming. To achieve this avoid some common pitfalls since Julia differs from those languages in many subtle ways. The easiest way to learn and experiment with Julia is by starting an interactive session (also known as a read-eval-print other variables (i.e., they cannot be used as rvalues) or use the last value assigned to them in any way. julia> x, ___ = size([2 2; 1 1]) (2, 2) julia> y = ___ ERROR: syntax: all-underscore identifier

programming. Julia provides ease and expressiveness for high-level numerical computing, in the same way as languages such as R, MATLAB, and Python, but also supports general programming. To achieve this avoid some common pitfalls since Julia differs from those languages in many subtle ways. The easiest way to learn and experiment with Julia is by starting an interactive session (also known as a read-eval-print other variables (i.e., they cannot be used as rvalues) or use the last value assigned to them in any way. julia> x, ___ = size([2 2; 1 1]) (2, 2) julia> y = ___ ERROR: syntax: all-underscore identifier

programming. Julia provides ease and expressiveness for high-level numerical computing, in the same way as languages such as R, MATLAB, and Python, but also supports general program- ming. To achieve this avoid some common pitfalls since Julia differs from those languages in many subtle ways. The easiest way to learn and experiment with Julia is by starting an interactive session (also known as a read- eval-print characters, whereas end-2 indexes into the middle of the ∃ multibyte representation. The correct way for this case is using prevind(s, lastindex(s), 2) or, if you're using that value to index into s

programming. Julia provides ease and expressiveness for high-level numerical computing, in the same way as languages such as R, MATLAB, and Python, but also supports general program- ming. To achieve this avoid some common pitfalls since Julia differs from those languages in many subtle ways. The easiest way to learn and experiment with Julia is by starting an interactive session (also known as a read- eval-print characters, whereas end-2 indexes into the middle of the ∃ multibyte representation. The correct way for this case is using prevind(s, lastindex(s), 2) or, if you're using that value to index into s

programming. Julia provides ease and expressiveness for high-level numerical computing, in the same way as languages such as R, MATLAB, and Python, but also supports general program- ming. To achieve this avoid some common pitfalls since Julia differs from those languages in many subtle ways. The easiest way to learn and experiment with Julia is by starting an interactive session (also known as a read- eval-print characters, whereas end-2 indexes into the middle of the ∃ multibyte representation. The correct way for this case is using prevind(s, lastindex(s), 2) or, if you're using that value to index into s

programming. Julia provides ease and expressiveness for high-level numerical computing, in the same way as languages such as R, MATLAB, and Python, but also supports general program- ming. To achieve this avoid some common pitfalls since Julia differs from those languages in many subtle ways. The easiest way to learn and experiment with Julia is by starting an interactive session (also known as a read- eval-print characters, whereas end-2 indexes into the middle of the ∃ multibyte representation. The correct way for this case is using prevind(s, lastindex(s), 2) or, if you're using that value to index into s

programming. Julia provides ease and expressiveness for high-level numerical computing, in the same way as languages such as R, MATLAB, and Python, but also supports general program- ming. To achieve this avoid some common pitfalls since Julia differs from those languages in many subtle ways. The easiest way to learn and experiment with Julia is by starting an interactive session (also known as a read- eval-print characters, whereas end-2 indexes into the middle of the ∃ multibyte representation. The correct way for this case is using prevind(s, lastindex(s), 2) or, if you're using that value to index into s

programming. Julia provides ease and expressiveness for high-level numerical computing, in the same way as languages such as R, MATLAB, and Python, but also supports general program- ming. To achieve this avoid some common pitfalls since Julia differs from those languages in many subtle ways. The easiest way to learn and experiment with Julia is by starting an interactive session (also known as a read- eval-print characters, whereas end-2 indexes into the middle of the ∃ multibyte representation. The correct way for this case is using prevind(s, lastindex(s), 2) or, if you're using that value to index into s

programming. Julia provides ease and expressiveness for high-level numerical computing, in the same way as languages such as R, MATLAB, and Python, but also supports general program- ming. To achieve this avoid some common pitfalls since Julia differs from those languages in many subtle ways. The easiest way to learn and experiment with Julia is by starting an interactive session (also known as a read- eval-print characters, whereas end-2 indexes into the middle of the ∃ multibyte representation. The correct way for this case is using prevind(s, lastindex(s), 2) or, if you're using that value to index into s

programming. Julia provides ease and expressiveness for high-level numerical computing, in the same way as languages such as R, MATLAB, and Python, but also supports general program- ming. To achieve this avoid some common pitfalls since Julia differs from those languages in many subtle ways. The easiest way to learn and experiment with Julia is by starting an interactive session (also known as a read- eval-print characters, whereas end-2 indexes into the middle of the ∃ multibyte representation. The correct way for this case is using prevind(s, lastindex(s), 2) or, if you're using that value to index into s