以表格提供總結分數。Canonical Kubernetes證明成為最具彈性、優勢及成本 效益的發行版本。 1. https://www.gartner.com/en/newsroom/press-releases/2020-06-25-gartner-forecasts-strong-revenue-growth-for-global-co 企業Kubernetes的關鍵考量因素 1. CNCF符合性 CNC 就是兩者針對Kubernetes API所做的決 定。MicroK8與上游K8 API完全相容，而K3則以較為固定不變的API子集提 供略小一些的二進位檔。 3 2019 2021 2022 2020 1.21.x 1.20.x 1.19.x 1.18.x 1.17.x 1.16.x 1.15.x 1.14.x 1.13.x 1.13.x 1.14.x 1.15.x 1

DateTime("2020-01-01", "yyyy-mm-dd") 2020-01-01T00:00:00 julia> a = ("2020-01-01", "2020-01-02"); julia> [DateTime(d, dateformat"yyyy-mm-dd") for d ∈ a] # preferred 2-element Vector{DateTime}: 2020-01-01T00:00:00 2020-01-01T00:00:00 2020-01-02T00:00:00 Dates.format – Method.CHAPTER 65. DATES 1117 format(dt::TimeType, format::AbstractString; locale="english") -> AbstractString Construct a string by using a TimeType Date("2020-01-01", "yyyy-mm-dd") 2020-01-01 julia> a = ("2020-01-01", "2020-01-02"); julia> [Date(d, dateformat"yyyy-mm-dd") for d ∈ a] # preferred 2-element Vector{Date}: 2020-01-01 2020-01-02

DateTime("2020-01-01", "yyyy-mm-dd") 2020-01-01T00:00:00 julia> a = ("2020-01-01", "2020-01-02"); julia> [DateTime(d, dateformat"yyyy-mm-dd") for d ∈ a] # preferred 2-element Vector{DateTime}: 2020-01-01T00:00:00 2020-01-01T00:00:00 2020-01-02T00:00:00 Dates.format – Method.CHAPTER 65. DATES 1117 format(dt::TimeType, format::AbstractString; locale="english") -> AbstractString Construct a string by using a TimeType Date("2020-01-01", "yyyy-mm-dd") 2020-01-01 julia> a = ("2020-01-01", "2020-01-02"); julia> [Date(d, dateformat"yyyy-mm-dd") for d ∈ a] # preferred 2-element Vector{Date}: 2020-01-01 2020-01-02

DateTime("2020-01-01", "yyyy-mm-dd") 2020-01-01T00:00:00 julia> a = ("2020-01-01", "2020-01-02"); julia> [DateTime(d, dateformat"yyyy-mm-dd") for d ∈ a] # preferred 2-element Vector{DateTime}: 2020-01-01T00:00:00 2020-01-01T00:00:00 2020-01-02T00:00:00 Dates.format – Method. format(dt::TimeType, format::AbstractString; locale="english") -> AbstractString Construct a string by using a TimeType object and applying the Date("2020-01-01", "yyyy-mm-dd") 2020-01-01 julia> a = ("2020-01-01", "2020-01-02"); julia> [Date(d, dateformat"yyyy-mm-dd") for d ∈ a] # preferred 2-element Vector{Date}: 2020-01-01 2020-01-02

DateTime("2020-01-01", "yyyy-mm-dd") 2020-01-01T00:00:00 julia> a = ("2020-01-01", "2020-01-02"); julia> [DateTime(d, dateformat"yyyy-mm-dd") for d ∈ a] # preferred 2-element Vector{DateTime}: 2020-01-01T00:00:00 2020-01-01T00:00:00 2020-01-02T00:00:00 Dates.format – Method. format(dt::TimeType, format::AbstractString; locale="english") -> AbstractString Construct a string by using a TimeType object and applying the Date("2020-01-01", "yyyy-mm-dd") 2020-01-01 julia> a = ("2020-01-01", "2020-01-02"); julia> [Date(d, dateformat"yyyy-mm-dd") for d ∈ a] # preferred 2-element Vector{Date}: 2020-01-01 2020-01-02

DateTime("2020-01-01", "yyyy-mm-dd") 2020-01-01T00:00:00 julia> a = ("2020-01-01", "2020-01-02"); julia> [DateTime(d, dateformat"yyyy-mm-dd") for d ∈ a] # preferred 2-element Vector{DateTime}: 2020-01-01T00:00:00 2020-01-01T00:00:00 2020-01-02T00:00:00 Dates.format – Method. format(dt::TimeType, format::AbstractString; locale="english") -> AbstractString Construct a string by using a TimeType object and applying the Date("2020-01-01", "yyyy-mm-dd") 2020-01-01 julia> a = ("2020-01-01", "2020-01-02"); julia> [Date(d, dateformat"yyyy-mm-dd") for d ∈ a] # preferred 2-element Vector{Date}: 2020-01-01 2020-01-02

DateTime("2020-01-01", "yyyy-mm-dd") 2020-01-01T00:00:00 julia> a = ("2020-01-01", "2020-01-02"); julia> [DateTime(d, dateformat"yyyy-mm-dd") for d ∈ a] # preferred 2-element Vector{DateTime}: 2020-01-01T00:00:00 2020-01-01T00:00:00 2020-01-02T00:00:00 Dates.format – Method. format(dt::TimeType, format::AbstractString; locale="english")::AbstractString Construct a string by using a TimeType object and applying the Date("2020-01-01", "yyyy-mm-dd") 2020-01-01 julia> a = ("2020-01-01", "2020-01-02"); julia> [Date(d, dateformat"yyyy-mm-dd") for d ∈ a] # preferred 2-element Vector{Date}: 2020-01-01 2020-01-02

DateTime("2020-01-01", "yyyy-mm-dd") 2020-01-01T00:00:00 julia> a = ("2020-01-01", "2020-01-02"); julia> [DateTime(d, dateformat"yyyy-mm-dd") for d ∈ a] # preferred 2-element Vector{DateTime}: 2020-01-01T00:00:00 2020-01-01T00:00:00 2020-01-02T00:00:00 Dates.format – Method. format(dt::TimeType, format::AbstractString; locale="english") -> AbstractString Construct a string by using a TimeType object and applying the Date("2020-01-01", "yyyy-mm-dd") 2020-01-01 julia> a = ("2020-01-01", "2020-01-02"); julia> [Date(d, dateformat"yyyy-mm-dd") for d ∈ a] # preferred 2-element Vector{Date}: 2020-01-01 2020-01-02

DateTime("2020-01-01", "yyyy-mm-dd") 2020-01-01T00:00:00 julia> a = ("2020-01-01", "2020-01-02"); julia> [DateTime(d, dateformat"yyyy-mm-dd") for d ∈ a] # preferred 2-element Vector{DateTime}: 2020-01-01T00:00:00 2020-01-01T00:00:00 2020-01-02T00:00:00 Dates.format – Method. format(dt::TimeType, format::AbstractString; locale="english") -> AbstractString Construct a string by using a TimeType object and applying the Date("2020-01-01", "yyyy-mm-dd") 2020-01-01 julia> a = ("2020-01-01", "2020-01-02"); julia> [Date(d, dateformat"yyyy-mm-dd") for d ∈ a] # preferred 2-element Vector{Date}: 2020-01-01 2020-01-02

DateTime("2020-01-01", "yyyy-mm-dd") 2020-01-01T00:00:00 julia> a = ("2020-01-01", "2020-01-02"); julia> [DateTime(d, dateformat"yyyy-mm-dd") for d ∈ a] # preferred 2-element Vector{DateTime}: 2020-01-01T00:00:00 2020-01-01T00:00:00 2020-01-02T00:00:00 Dates.format – Method. format(dt::TimeType, format::AbstractString; locale="english") -> AbstractString Construct a string by using a TimeType object and applying the Date("2020-01-01", "yyyy-mm-dd") 2020-01-01 julia> a = ("2020-01-01", "2020-01-02"); julia> [Date(d, dateformat"yyyy-mm-dd") for d ∈ a] # preferred 2-element Vector{Date}: 2020-01-01 2020-01-02