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\section{Load and Store Instructions} Load and store instructions transfer data from and to RAM and peripheral devices. All load/store instructions first compute a virtual address by adding a sign-extended 16-bit immediate value to a register value. That address is then transformed to a physical address by the \mmux. The load/store operation is sent to the SoC bus using the physical address and responded to by a slave device attached to the bus. Both the slave device itself and the target location inside that device are determined from the physical address. A write operation stores a value in a RAM location or device register, but may also trigger side-effects in some devices. Similarly, a read operation reads a value from a RAM location or device register, but may also trigger side-effects in some devices. Write operations take the data to write from a general-purpose register. Read operations store the received data in a general-purpose register. All load/store operations must be aligned to the transferred data size. If a half-word (word) sized load/store operation is not half-word (word) aligned, it triggers an \name{Illegal Address Fault}. All virtual addresses in the range 80000000$_h$ through FFFFFFFF$_h$ are privileged addresses and may only be accessed while in Kernel Mode. If such an address is accessed in User Mode, a \name{Privileged Address Fault} occurs. The transformation of a virtual address to a physical address is done by the \mmu and may trigger a \name{TLB Miss Fault}, \name{TLB Invalid Fault} or \name{TLB Write Fault}. The service routine for these kinds of faults typically restarts the load/store operation after fixing the problem. Any of these exceptions -- \name{Illegal Address Fault}, \name{Privileged Address Fault}, \name{TLB Miss Fault}, \name{TLB Invalid Fault} and \name{TLB Write Fault} -- causes the faulting address to be loaded into the \name{TLB Bad Address Register} ($S_4$). Certain physical addresses may not actually correspond to any device attached to the SoC bus. This includes {\it holes} in the physical address map as well as the range of unused physical addresses (40000000$_h$ through FFFFFFFF$_h$). Access to such addresses results in a \name{Bus Timeout Fault}. Load/store operations come in variants with different transfer size. Only the RAM and ROM support half-word and byte sized operations. Peripheral devices only support word-sized operations. Accessing peripheral devices with half-word or byte sized operations has an undefined effect. Access to RAM or ROM with different transfer sizes provides word-sized, half-word sized, and byte-sized views on the same memory locations. These views are arranged in a big-endian fashion. When a half-word or byte sized location in RAM or ROM is read, the resulting value is extended to 32 bits to fit into a general-purpose register. Half-word and byte sized load operations come in variants that either sign-extend or zero-extend these values. \newcommand{\badaddress}[1]{ \begin{effectblock} \effect $S_4 \leftarrow A_v$ \effect trigger a \name{#1} \end{effectblock} \effect end if } \newcommand{\signedload}{The result is sign-extended to 32 bits.} \newcommand{\unsignedload}{The result is zero-extended to 32 bits.} \newcommand{\signedloadeffect}{\effect $R_r \leftarrow signext_{32}($response value$)$} \newcommand{\unsignedloadeffect}{\effect $R_r \leftarrow zeroext_{32}($response value$)$} \newcommand{\ldstdesc}[6]{ \pagebreak \subsection{#1} The #1 instruction #3 a #4-sized value #5 RAM, ROM, or a peripheral device. #6 \ldstformat{#2} } \newcommand{\xaligned}[1]{ \effect if $A_v$ is not #1 aligned then \badaddress{Illegal Address Fault} } \newcommand{\haligned}{\xaligned{half-word}} \newcommand{\waligned}{\xaligned{word}} \newcommand{\writeprotection}{ \effect if the TLB entry for $pageNumber$ does not have the {\it write} bit set then \badaddress{TLB Write Fault} } \newcommand{\sendload}[1]{ \effect send a load #1 request using the address $A_p$ to the SoC bus } \newcommand{\sendstore}[2]{ \effect send a store #1 request using the address $A_p$ and data $#2$ to the SoC bus } \newcommand{\ldsteffects}[4]{ \begin{effectize} \effect $A_v \leftarrow R_x + signext_{32}(y)$ #1 \effect if $A_{v,31} = 1$ and $U_C = 1$ then \badaddress{Privileged Address Fault} \effect $pageNumber \leftarrow A_{v,31..12}$ \effect if no TLB entry exists for $pageNumber$ then \badaddress{TLB Miss Fault} \effect if the TLB entry for $pageNumber$ does not have the {\it valid} bit set then \badaddress{TLB Invalid Fault} #2 \effect $A_p \leftarrow $ page frame number in the TLB entry for $pageAddress$ #3 \effect if no response is received then trigger a \name{Bus Timeout Fault} #4 \end{effectize} \vfill } \ldstdesc{LDW}{110000}{reads}{word}{from}{} \ldsteffects{\waligned}{}{\sendload{word}}{\effect $R_r \leftarrow$ response value} \ldstdesc{LDH}{110001}{reads}{half-word}{from}{\signedload} \ldsteffects{\haligned}{}{\sendload{half-word}}{\signedloadeffect} \ldstdesc{LDHU}{110010}{reads}{half-word}{from}{\unsignedload} \ldsteffects{\haligned}{}{\sendload{half-word}}{\unsignedloadeffect} \ldstdesc{LDB}{110011}{reads}{byte}{from}{\signedload} \ldsteffects{}{}{\sendload{byte}}{\signedloadeffect} \ldstdesc{LDBU}{110100}{reads}{byte}{from}{\unsignedload} \ldsteffects{}{}{\sendload{byte}}{\unsignedloadeffect} \ldstdesc{STW}{110101}{writes}{word}{to}{} \ldsteffects{\waligned}{\writeprotection}{\sendstore{word}{R_r}}{} \ldstdesc{STH}{110110}{writes}{half-word}{to}{} \ldsteffects{\haligned}{\writeprotection}{\sendstore{half-word}{R_{r,15..0}}}{} \ldstdesc{STB}{110111}{writes}{byte}{to}{} \ldsteffects{}{\writeprotection}{\sendstore{byte}{R_{r,7..0}}}{}
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